WO2007059060A2 - Systeme de subdivision d'espace pour espaces interieurs - Google Patents

Systeme de subdivision d'espace pour espaces interieurs Download PDF

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Publication number
WO2007059060A2
WO2007059060A2 PCT/US2006/044049 US2006044049W WO2007059060A2 WO 2007059060 A2 WO2007059060 A2 WO 2007059060A2 US 2006044049 W US2006044049 W US 2006044049W WO 2007059060 A2 WO2007059060 A2 WO 2007059060A2
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WIPO (PCT)
Prior art keywords
elevated
planar
edge
construct
members
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PCT/US2006/044049
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English (en)
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WO2007059060A3 (fr
Inventor
Mark A. Baloga
Frank G. Graziano
Carl V. Forslund, Iii
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Steelcase Development Corporation
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Publication of WO2007059060A2 publication Critical patent/WO2007059060A2/fr
Publication of WO2007059060A3 publication Critical patent/WO2007059060A3/fr

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Classifications

    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47BTABLES; DESKS; OFFICE FURNITURE; CABINETS; DRAWERS; GENERAL DETAILS OF FURNITURE
    • A47B87/00Sectional furniture, i.e. combinations of complete furniture units, e.g. assemblies of furniture units of the same kind such as linkable cabinets, tables, racks or shelf units
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B2/00Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
    • E04B2/74Removable non-load-bearing partitions; Partitions with a free upper edge

Definitions

  • the field of the invention is interior space dividing systems and more specifically systems that include pre-manufactured architected structures and technology included or includable with the structures where the technology and architected structures are combinable to enhance information communication.
  • Different preexisting spaces typically have space unique characteristics such as dimensions, shapes, entry locations, window locations, HVAC intakes and outlets, power and data distribution layouts, etc.
  • Optimal space division is often dependent on the characteristics (i.e., size, shape, entry locations, locations of windows, etc.) of a specific space, the intended use of the space (e.g., is the space to be used by one person or for conferencing, will the space be used for private work or should the space foster collaboration, etc.), the person or persons that will be using the space, etc. For this reason, many interior architects prefer space dividing systems that allow the architects to custom configure space dividing configurations to fit specific space, use, and personal requirements.
  • an interior architect identifies the characteristics of a space in which the configuration is to be used and also identifies at least the primary use of the space to be divided.
  • the architect may also identify characteristics (e.g., height, physical disabilities, etc.) of the person or persons that will use the space and any personal preferences.
  • the architect designs a suitable frame structure and selects panel members and edge members to be attached to the frame structure to achieve a desired space division.
  • the design also specifies wiring/cable harness routes through the frame as well as power and data receptacle locations within the frame/panel configuration.
  • a kit is typically assembled that includes all of the components required to construct the configuration and the kit is delivered to the space in which the configuration is to be constructed.
  • a person specially trained to assemble frame/panel kits assembles the kit components is required to assemble the configuration.
  • an information technologist and/or an electrician may be required to link up power and/or data lines to the wires that are to be routed within the frame/panel configuration.
  • the configuration is a sort of shell to which other components can be added to "fit out" for use by a specific person or by a group.
  • an information technologist adds components to the configuration such as, for example, a telephone, one or more computer, speakers, ambient and task lighting, etc.
  • the technologist begins with the shell that was designed by the architect and adds technology where appropriate.
  • Frame/panel systems typically include several standard size and shape panels. In many cases panels may vary from one foot by one foot to three foot by five foot sizes and will often come with different types of fascia materials (i.e., wood, metal, fabric, etc.). In other cases panels may have larger standard sizes such as three feet by eight feet or more for building floor to ceiling walls. In known cases standard panel members are provided in rectangular shapes and at least some may include predefined door and window spaces.
  • industry members In addition to frame/panel systems where configurations have to be assembled on site, in at least some cases industry members have provided prefabricated panels that include all structural components (e.g., framing), external surface components (e.g., fascia) and internal power and data wiring components where the panels are securable along vertical edges to provide larger dividing structures.
  • known prefabricated panels have rectangular shapes.
  • several industry members have designed free standing space dividing screen assemblies that can be positioned between spaces for dividing purposes.
  • the screens may be mounted on casters or wheels so that the screens can be easily moved to different locations within a space at different times.
  • the screens include multiple rectilinear components that are hinged along vertical edges in an accordion type fashion so that the screens can be expanded and contracted as needed to facilitate space division.
  • the architect creates the shell to sub-divide a space without thinking much about how the shell can be used to enhance information communicating tasks while the information technologist works with the shell as provided by the architect to add telephones, computers, speakers, lighting, etc., and synergistic design is limited at best (.i.e., there is little or no consideration given to how architecture can enhance information communication or can modify ambient effects).
  • a related problem where the dividing configuration and information/ambient technology is designed or selected separately is that the resulting configuration often is aesthetically unappealing (i.e., the components appear as though they were haphazardly cobbled together). [0015] Even where information/ambient technology has been integrated into frame/panel systems, the integration has been constrained by other considerations.
  • interior architects typically design wall structures with a single space in mind as opposed to considering the effect of a wall structure on multiple spaces adjacent thereto and in conjunction with other wall structures.
  • the wall structures are juxtaposed to physically block persons from outside the space from peering into the space.
  • no consideration is given to other functions the wall surfaces could perform outside the conference space or to how the wall configuration could be modified to enhance functionality outside the conference space.
  • no consideration is given to how additional wall structure configurations or sub-configurations could be used within the larger conference space to render the larger space more suitable for its intended use and for other uses.
  • frame/panel systems are configured to define personal spaces
  • the purpose of the configuration is typically to block others out of the personal space and to provide a sense of privacy for the person that uses the personal space and little consideration is given to how the configuration could serve other functions for persons outside the personal space.
  • architects typically design shells that serve a single space and do not consider how a shell may be modified or extended to serve multiple spaces most effectively (i.e., architects are literally not accustomed to thinking "outside the box") and additional structural functionality is never realized.
  • frame/panel system configurations and to a lesser extent prefabricated panel configurations have a specific appearance that typically includes visible lines and spaces between adjacent panel members and edge members. While a divided panel type appearance is suitable for some applications, in other applications where a more finished appearance is desirable, dividing lines/spaces are less tolerable. In applications where a finished appearance is desired, the only solution in the past has been to construct more permanent wall structures on-site using conventional building techniques such as studs, drywall, electrical routings, etc., which increases costs appreciably.
  • prefabricated space dividing subassemblies can be provided that are particularly useful in dividing preexisting spaces in advantageous ways.
  • three main types of prefabricated subassemblies are contemplated including a proscenium assembly type, a container assembly type and a box assembly type, each of which includes several rectilinear subsections that together form the dividing structure.
  • the prefabricated subassemblies reduce manufacturing costs, reduce assembly time, limit architects to predefined configurations known to have desirable advantages and facilitate space division where dividing structure has a more unique (e.g., more finished) appearance than in panel based systems.
  • the prefabricated panel assemblies will include internal power and data harnesses as well as other technology components.
  • the prefabricated space dividing subassemblies may include simple yet useful prefabricated L-shaped panels where each panel includes first and second integrally formed rectilinear and co-planar subassemblies. In some embodiments the prefabricated space dividing subassemblies may include simple yet useful prefabricated L-shaped panels where each panel includes first and second integrally formed rectilinear subassemblies that form a right angle with respect to each other. In some embodiments adjacent panels are hinged so that assemblies can be folded up for easy transport.
  • two or three L-shaped panel subassemblies are secured together to form useful configurations and the relative orientations of the L-shaped members is limited or restricted so that only specific and relatively useful configurations result.
  • Fig. 1a is a front plan view of a planar L-shaped subassembly according to at least some embodiments of the present invention while Fig. 1b is a side plan view of the subassembly of Fig. 1 a;
  • Fig. 2a is a front plan view of a multi-planar L-shaped subassembly according to at least some inventive embodiments and Fig. 2b is a side view of the subassembly of Fig. 2a;
  • Fig. 3a is a front plan view of a planar rectangular subassembly according to at least some embodiments of the present invention
  • Fig. 3b is a side view of the subassembly of Fig. 3a
  • 3c is a bottom of the subassembly of Fig. 3a;
  • Fig. 4 is a front plan view of a space dividing configuration including one of the subassemblies of Fig. 1a and one of the subassemblies of Fig. 2a;
  • Fig. 5 is a top plan view of the configuration of Fig. 4;
  • Fig. 6 is a perspective view of the configuration of Fig. 4;
  • Fig. 7 is a front perspective view of a configuration similar to the configuration illustrated in Fig. 6 albeit where the subassemblies have different dimensions;
  • Fig. 8 is a front plan view of another configuration that includes one of the subassemblies of Fig. 1a and one of the subassemblies of Fig. 2a;
  • Fig. 9 is an end view of the configuration of Fig. 8;
  • Fig. 10 is a perspective view of another configuration that includes one of the subassemblies of Fig. 1a and two of the subassemblies of Fig. 2a;
  • FIG. 11 is similar to Fig. 10, albeit illustrating the configuration where open spaces are identified by phantom lines;
  • Fig. 12 illustrates two configurations that are juxtaposed with respect to each other so as to delineate different spaces within a larger space
  • Fig. 13 is similar to Fig. 12, albeit wherein the same two configurations are juxtaposed in a different relative position;
  • Fig. 14 is a perspective view of another space delineating configuration that includes three of the subassemblies of Fig. 1a;
  • Fig. 15 is similar to Fig. 14, albeit wherein one of the subassemb ⁇ es has a different thickness dimension than the other two subassemblies;
  • Fig. 16 is a bottom perspective view of two of the subassemblies of Fig. 14 arranged in a specific relative juxtaposition;
  • Fig. 17 is a top perspective of two of the subassemblies of Fig. 14 arranged in a different relative juxtaposition;
  • Fig. 18 is a top perspective view of two of the configurations of Fig. 14 arranged in another relative juxtaposition;
  • Fig. 19 is similar to Fig. 18, albeit where the two configurations are in another relative juxtaposition;
  • Fig. 20 is similar to Fig. 18, albeit where the two configurations are in a different relative juxtaposition;
  • Fig. 21 is a top perspective view showing four configurations like the configuration of Fig. 14 in a specific relative juxtaposition;
  • Fig. 22 is similar to Fig. 21 , albeit, wherein the four configurations are arranged in a different fashion;
  • Fig. 23 is a perspective view of another space delineating configuration including two subassemblies like the subassembly of Fig. 1a and two generally rectilinear subassemblies like the subassembly illustrated in Fig. 3a;
  • Fig. 24 is a perspective view of a configuration similar to the configuration illustrated in Fig. 14, albeit wherein subassembly members have different dimensions;
  • Fig. 25 is similar to Fig. 24, albeit illustrating another configuration
  • Fig. 26 is similar to Fig. 24, albeit illustrating yet another configuration that is configurable using a different subset of subassemblies that are illustrated in Figs.
  • Fig. 27 is a perspective view illustrating the configuration of Fig. 26 with other components having been added;
  • Fig. 28 is a view of the configuration of Fig. 24 with additional components having been added;
  • Fig. 28a is a top perspective view showing various configurations juxtaposition with respect to each other to delineate different spaces within a larger space;
  • Fig. 29 is a perspective view of a configuration constructed using one of the subassemblies of Fig. 1a and two of the subassemblies of Fig. 3a;
  • Hg. 30 is a perspective view of a configuration constructed using two of the subassemblies of Fig. 1 a and one of the subassemblies of Fig. 3a;
  • Fig. 31 is a perspective view of a configuration constructed using three of the rectilinear subassemblies of Fig. 3a;
  • Fig. 32 is similar to Fig. 31 , albeit with the three subassemblies in a different relative juxtaposition;
  • Fig. 33 is a first perspective view of a configuration for dividing a large space into smaller subspaces that uses a plurality of the subassemblies illustrated in
  • Fig. 34 is a second perspective view of the configuration of Fig. 33;
  • Fig. 35 is a third perspective view of the configuration of Fig. 33
  • Fig. 36 is a perspective view of another configuration including an arch type subassembly and two of the subassemblies of Fig. 1a;
  • Fig. 37 is a perspective view showing two of the configurations of Fig. 36 arranged in a specific relative juxtaposition
  • Fig. 38 is a top perspective view of a conference space wherein one of the configurations of Fig. 36 is disposed adjacent a large opening into the conference space;
  • Fig. 39 is a top perspective view of a conference space where an arch type subassembly is disposed near one end wall;
  • Fig. 40 is similar to Fig. 39, albeit where two arch type subassemblies are arranged within a conference space, one adjacent each of two oppositely facing end walls;
  • Fig. 41 is a side perspective view of a configuration similar to the configuration of Fig. 14 wherein light units are includes;
  • Fig. 42 is a side view of an exemplary subassembly that includes light devices disposed therein behind a transparent or at least semitransparent surface;
  • Fig. 43 is a front view of an exemplary status indicator
  • Fig. 44 is a schematic view illustrating an exemplary technology layer showing movement with respect to a base subassembly.
  • Planar L subassembly 10 is generally L- shaped and includes components having surfaces that are generally disposed within a single plane.
  • planar L subassembly 10 includes a first generally rectangular or support member 12 and a second rectangular or elevated member 14 that is integrally formed with member 12.
  • Member 12 includes a bottom edge 16, a top edge 18, inside and outside lateral or side edges 20 and 22 and first and second oppositely facing surfaces 24 and 26, respectively.
  • Horizontal or elevated member 14 includes a lower edge 13, a top edge 15, a distal lateral edge 17 and a proximal lateral edge (not labeled) that is adjacent edge 20 of member 12 and first and second oppositely facing surfaces 19 and 21 , respectively.
  • members 12 and 14 may vary in some embodiments of the present invention while in other embodiments the dimensions will be standard dimensions. For example, the dimension between top and lower edges 15 and 13 of member 14 may be as illustrated or may be less or greater than illustrated. In the illustrated embodiment, members 12 and 14 have a uniform and single thickness (seen best in Fig. 1b). In other embodiments, members 12 and 14 may have different thicknesses or either of the members may have a varying thickness such as, for example, embodiments where member 12 may be wider near bottom edge 16 than near top edge 18 for aesthetic or stability purposes.
  • the thicknesses of members 12 and 14 may each be six inches or less so that subassembly 10 appears relatively slight from a side view (see Fig. 1 b). In other embodiments one or both of members 12 and 14 may be up to 18 inches thick.
  • a width dimension of member 12 between edges 20 and 22 may be between twelve inches and forty-eight inches in one embodiment. Similarly, a height dimension of member 14 may be between six inches and thirty-six inches.
  • Subassembly 10 may be formed in any of several different ways including, but not limited to, out of internal frame members and skin type panels attached thereto, using a planar rigid material such as aluminum, wood, laminate, etc., using a light weight foam board material, out of rigid or semi-rigid pressed or corrugated cardboard, etc.
  • the construction method used to form subassembly 10 will be dictated by the aesthetic effect desired as well as the application in which the subassembly is used. Thus, where the application requires relatively greater structural integrity, subassembly 10 may require internal framing.
  • subassembly 10 is prefabricated and is delivered to a location for use as a single subassembly. In other embodiments, subassembly 10 may not be prefabricated and may have to be assembled at a use location.
  • subassembly 10 may be prefabricated to include linkage components for linking a distal end (i.e., the end adjacent edge 17) thereof to another assembly to form a larger structure.
  • subassembly 10 may be prefabricated to include linkage components for linking the lower end (i.e., the end adjacent edge 16) thereof to another subassembly.
  • the exact design and operation of the linkage assembly is not important and it is believed one of ordinary skill in the art could configure various assemblies that would suffice.
  • subassemblies 10a and 30a are contemplated including but not limited to mechanical brackets, bayonet type configurations where an extension from one assembly 10a or 30b is received within a channel formed by the other of the assemblies 10a and 30b, adhesive fastening, etc.
  • member 34 is integrally formed with member 32 and is prefabricated in that fashion. In other embodiments member 34 must be secured to member 32 at a use location.
  • members 32 and 34 would be configured such that they can only assemble in a single fashion so that the subassembly illustrated is in fact pre-architected prior to delivery to the use location.
  • Member 32 is rectilinear and includes a first edge 36, a second edge (not labeled) opposite first edge 36, first and second lateral or side edges 38 and 40, respectively, and first and second oppositely facing surfaces 42 and 44, respectively.
  • Member 34 is rectilinear and includes a first edge 31 , a second edge 33, first and second end edges 35 and 37, respectively, a first surface 39 and an oppositely facing second surface 41.
  • second member 34 is integrally formed with first member 32 at first end edge 35 and extends therefrom at a right angle.
  • Members 32 and 34 may have several different length and width dimensions. In the illustrated embodiment members 32 and 34 have an identical width dimension.
  • dimensions of subassemblies 10 and 30 will be related. For instance, referring to Fig.
  • member 32 may have a length dimension that is similar to the length dimension of member 12 so that undersurface 41 of member 34 is in the same horizontal plane as edge 13 of member 14 as illustrated.
  • member 32 may have a length dimension that is similar to the length dimension of member 12 so that undersurface 41 of member 34 is in the same horizontal plane as edge 13 of member 14 as illustrated.
  • subassembly 30 may be constructed in any of several ways depending upon desired aesthetics and application requirements. Once again, in at least some embodiments, an important aspect of subassembly 30 is that subassembly 30 is prefabricated or at least pre-architected for use at an installation. In at least some cases subassembly 30 may have to be assembled at a use location.
  • members 32 and 34 may have a range of thicknesses, height dimensions and width dimensions, depending upon applications.
  • each of members 32 and 34 may include prefabricated linkage components for securing subassembly 30 to other subassemblies to form a larger structure.
  • planar rectangular subassembly 50 includes components that are generally disposed within a single plane and within a rectangular package.
  • subassembly 50 includes first and second long edges 52 and 54, respectively, first and second short edges 56 and 58, respectively, and first and second oppositely facing surfaces 60 and 62, respectively.
  • subassembly 50 may be constructed in any of several ways depending upon desired aesthetics and application requirement. Once again, in some embodiments, an important aspect of subassembly 50 is that subassembly 50 is prefabricated while in other cases the subassembly 50 may have to be assembled at a use location. Subassembly 50 may come in various thicknesses, width dimension and height dimensions, depending on the application in which subassembly 50 is to be used. In addition, subassembly 50 may be provided with prefabricated linkage components. [0084] Referring again to Figs.
  • the scale of subassemblies 10, 30 and 50 will be relatively large such that two or more of the subassemblies, when secured together, can form a substantial space dividing or delineating configuration.
  • the length of edge 20 of member 12 in Fig. 1a will have a dimension that allows a person of ordinary height (e.g., six feet) to pass easily under member 14 when edge 16 is supported by a floor surface so that subassembly 10 can be used with other subassemblies to provide a space dividing archway or the like.
  • the dimensions of the three subassemblies 10, 30 and 50 may be correlated such that the separate subassemblies are easily linkable together in aesthetically and functionally desirable ways.
  • FIG. 4 through 6 an exemplary archway configuration 69 formed by using one of the planar L subassemblies 10a of Fig. 1a and one of the multi-planar L subassemblies 30a of Fig. 2a is illustrated.
  • edge 31 of member 34 adjacent end edge 37 is secured to surface 21 of member 14 adjacent edge 17 and adjacent edge 13 such that undersurface 41 of member 34 is generally flush with lower edge 13.
  • a space 60 is provided below edge 13 and surface 41 and the configuration 69 operates like an archway.
  • archway surfaces are provided including surfaces 24 and 19 formed by subassembly 10a that face in one direction and surface 42 formed by subassembly 30a that faces space 60 and that is perpendicular to surfaces 19 and 24.
  • Surfaces 19, 24 and 42 as well as the oppositely facing surfaces i.e., 21 , 26 and 44
  • an appropriate surface material e.g., whiteboard material
  • the juxtaposition of configuration members creates spaces that facilitate different feelings depending upon where a person is located with respect to the configuration.
  • the person can observe surfaces 19 and 24 and information thereon. Once within the space below the archway the person can observe information on surface 42.
  • member 34 facilitates a feeling of at least some degree of separation and privacy from the space therearound.
  • the sense of privacy below member 34 is the result of horizontally orientated member 34.
  • member 19 which is vertically oriented does not facilitate the same sense of separation and privacy.
  • the person can view information on surface 26 (see Fig. 5).
  • elevated member 14 does not create the same feeling in the space therebelow as does horizontally aligned elevated member 34, it has been recognized that any overhead member increases the sense of transition between spaces that the elevated member delineates in any fashion therebelow.
  • any overhead member increases the sense of transition between spaces that the elevated member delineates in any fashion therebelow.
  • the edges of member 34 do not create physical walls or barriers between the space therebelow and the larger ambient space, the edges create a psychological "phantom" wall or barrier that people outside the space below member 34 as well as people inside the space below member 34 perceive.
  • elevated member 14 does not create a physical barrier therebelow, a psychological phantom barrier is formed.
  • surface 19 and the opposite surface are located at relatively high positions relative to surface 24 and the opposite surface (not labeled).
  • surface 19 and the opposite surface may be used to present one type of information intended for wide distribution while the lower surface 24 and the opposite surface may be used to present another type of more intimate information.
  • each of members 32 and 34 form part of the archway with member 32 dividing space to each side thereof and member 34 increasing the sense of separation/privacy, opposite sides of member 32 may be useable to present information.
  • configuration 69 components are extremely functional, because of their simplicity, the components and indeed configuration 69 in at least some embodiments would be inexpensive to manufacture.
  • all of the space dividing/information presenting functions described above are facilitated using simple substantially planar components that generally extend within three planes where each of the planar members, as the label implies, has a limited thickness dimension.
  • the overhead portions or members 34 and 14 provide overhead structure that serves three distinct functions in a simple and inexpensive manner.
  • member 34 helps define the semi-private space thereunder.
  • member 14 enables presentation of information that can be seen at a long distance due to the height thereof.
  • vertical member 14 gives the archway configuration 69 a sense of mass and structural integrity from a distance while member 34 gives configuration 69 a sense of structural integrity from below and when viewed laterally from the side in a way that one of the subassemblies 10a or 30a or two of the same type of subassembly (e.g., two assemblies like subassembly 30a) cannot.
  • one of the subassemblies 10a or 30a or two of the same type of subassembly e.g., two assemblies like subassembly 30a
  • the archway would not appear to have much mass and the effect would be quite different.
  • Figs. 4 through 6 The configuration illustrated in Figs. 4 through 6 is the direct result of considering how a single simple and inexpensive space dividing configuration can be used to simultaneously define several different and distinctly useful subspaces and to enhance delivery of certain types of information to each of the distinct spaces.
  • the separate spaces defined by configuration 69 include at least the separate spaces on opposite sides of the archway as well as the space within the archway that is below member 34 and in front of surface 42.
  • different sections of the large dimension surfaces of subassembly 10a can be used to address distinct subspaces on the opposite sides of configuration 69.
  • surface 19 can be used to address or provide information to persons remote from configuration 69 while surface 24 may be used to provide information to persons that are closer to configuration 69.
  • various other configurations are contemplated which, in general, have characteristics similar to the characteristics described above with respect to Figs. 4-6. To this end, all of the configurations have some type of floor supporting vertical members and each includes some type of overhead or elevated arch type configuration.
  • the overhead or elevated components are either oriented in a single vertical or horizontal plane or are positioned in one horizontal plane to increase a sense of separation and one vertical plane to provide a sense of mass from afar and to facilitate information presentation to persons remote from the configuration.
  • the subassemblies are configured using relatively thin members (e.g., 6 or less inches in thickness).
  • configuration 69 is described above as being formed from two subassemblies 10a and 30a, it should be appreciated that either one or both of assemblies 10a and 30a could be formed by securing two rectangular subassemblies (see Figs. 3a-3c) together along suitable edges.
  • subassembly 30a may be formed by securing first and second subassemblies 50 together along short edges thereof.
  • pre- manufactured subassemblies 10, 30, 50, etc. are important in some inventive embodiments, in other embodiments a more typical frame/panel system may be used to form configuration 69 or other configurations disclosed herein.
  • FIG. 7 illustrates a configuration 85 similar to the configuration of Fig. 6 including one planar L-shaped subassembly 10b and one multi-planar L-shaped subassembly 30b, albeit where the lengths of elevated subassembly members 14 and 34 have been extended so that an edge 62 of member 34 that is secured to member 14 extends all the way along member 14 thereby giving a slightly different, albeit similar effect to that provided by the configuration illustrated in Figs. 4 through 6.
  • FIG. 8 and 9 another configuration that can be constructed using one of the subassemblies 10c illustrated in Fig. 1a and one of the subassemblies 30c illustrated in Fig. 2a is shown.
  • end edge 37 of member 34 is secured to surface 21 adjacent edge 13 and lateral edge 17 of member 14.
  • the configuration that results generally forms a corner type archway having a plurality of relatively large surfaces that face in a single direction (see Fig. 8) and relatively thin edge surfaces that face in another direction (see Fig. 9).
  • configuration 71 defines several distinct spaces that have different information presenting characteristics. For persons approaching configuration 71 , information provided on surfaces of elevated member 14 is observable.
  • any of the surfaces of the support members will be observable where each is located with respect to the configuration surfaces so as to have a different psychological effect on a person adjacent thereto.
  • elevated member 34 facilitates a relatively more intimate/private experience as opposed to ne that occurs when adjacent the surface of support member 12 as illustrated in Fig. 8.
  • Configuration 73 includes one planar L subassembly 10d and one multi-planar L-shaped subassembly 3Od that are arranged like subassemblies 10c and 30c in Figs. 8 and 9.
  • configuration 73 also includes a second multi-planar subassembly 70 that includes first and second planar members 72 and 74 that are integrally formed to define a right angle.
  • One distal end of member 72 opposite member 74 is attached or secured to edge 40 of member 32 adjacent edge 36.
  • the free end of member 74 opposite member 72 is secured to surface 26 of member 12 adjacent edge 22 and lower edge 16.
  • subassemblies 10d, 3Od and 70 together form a "cube construct".
  • Subassembly 70 forms a generally horizontal and upwardly facing edge 76.
  • the height of edge 76 may be the height of a standard desktop so that when a desktop surface is mounted thereto, a workspace is constructed that is delineated from other space therearound. Referring still to Fig. 10, it should be appreciated that when a workspace is constructed as illustrated, planar openings are formed on the sides of the space and above top edge 76.
  • a first planar opening 78 is defined by a portion of top edge 76 and adjacent vertical edge 40 while a second planar opening 80 perpendicular to opening 78 is formed by a portion of top edge 76 and an adjacent portion of surface 26 of member 12.
  • the subassemblies are configured so as to subdivide a larger space into smaller spaces that have characteristics that are particularly useful for certain applications.
  • the outward facing surfaces of subassembly 10d can be used to provide information to persons outside the space defined by configuration 73 and the inward facing surface of member 32 below member 34 can be used to provide information in a location that feels semi-private.
  • the space within the cube configuration that is entered by passing below one of the elevated members 34 or 14 has a feeling of separation that is caused in great part by the presence of the elevated members 34 and 14.
  • the elevated members create phantom walls for boundaries that, while not physically blocking entry, psychologically form a barrier that is perceived both inside and outside the space. It is contemplated that other surfaces may be usefully employed to present information as well.
  • openings 78 and 80 may be closed in some fashion.
  • glass or Plexiglas paneling may be provided within openings 78 and 80 to further enclose a space.
  • media type display screens such as LCD, flat panel, etc., type displays, may be used to close opening 78 and/or opening 80.
  • opening 84 may be closed via a glass panel, a display screen or some other planar device (e.g., a white board, a writing board, etc.).
  • a configuration 69 similar to the configuration illustrated in Fig. 6 is shown with yet another configuration 88 formed by two planar L-shaped subassemblies 10e and 10f that are akin to subassembly 10 in Fig. 1a, where subassemblies 10e and 10f are secured together along distal lateral edges 17e and 17f, respectively, such that subassemblies 10e and 10f reside in perpendicular planes that form a right angle.
  • configuration 88 is arranged with respect to configuration 69 to divide a space so that multiple surfaces and archways result.
  • subassemblies 69 and 88 are arranged in a second juxtaposition thereby diving a space in a different manner.
  • FIG. 14 yet one additional configuration 89 that may be constructed using three planar L-shaped subassemblies 10g, 10h, and 10i is illustrated.
  • an edge 17g of subassembly 10g is secured to an edge 16i of subassembly 10i such that subassemblies 10g and 10i generally reside in perpendicular planes.
  • an edge 17i of subassembly 10i is secured to an edge 16h of subassembly 10h such that subassemblies 10i and 10h reside in perpendicular planes while an edge 17h of subassembly 10h is secured to an edge 16g of subassembly 10g such that subassemblies 10h and 10g reside in perpendicular planes.
  • a corner or cube type subassembly results where, if desired, a work surface may be mounted to a top edge 91 formed by adjacent horizontal edge portions of subassemblies 1Oi and 10h.
  • elevated subassembly 10g includes edges that form psychological phantom barriers therebelow that enhance the different feelings of various spaces.
  • elevated subassembly 10g includes an L-shaped internal edge 121 and an L-shaped external edge 123 where the space below and outside external edge 123 has a first distinct feeling, the space defined generally by the phantom barrier associated with internal edge 121 and a phantom barrier associated with edge 91 (i.e., the phantom barrier that extends up from edge 91) has a second distinct feeling and the space below elevated subassembly 10g has a third distinct feeling.
  • a configuration 96 similar to configuration 89 in Fig. 14 is illustrated, that includes three connected planar L-shaped subassemblies 10j, 10k and 101 that are akin to subassemblies 10g, 10h and 10i in Fig. 14.
  • subassemblies 10j and 10k have a relatively minimal thickness
  • subassembly 101 has a relatively greater thickness.
  • subassembly 101 may have a greater thickness to accommodate data and power lines or other types of technology such as, for instance, flat panel display screens, etc. In other cases, subassembly 101 may be thicker simply for aesthetic purposes.
  • planar L-shaped subassemblies like subassemblies 10j and 10g in Figs. 15 and 14, respectively, will be referred to as elevated subassemblies while the other two subassemblies used to support the elevated subassembly will be referred to as supporting or support subassemblies.
  • a configuration 100 is illustrated that includes two configurations 89a and 89b that are akin to configuration 89 in Fig. 14.
  • configuration 100 is shown in a bottom perspective view so that, generally, bottom facing surfaces of elevated subassemblies 10m and 10n are observable.
  • configurations 89a and 89b are arranged such that portions of lateral edges 22m and 22n are adjacent. The adjacent edge portions may be mechanically fastened to each other to provide additional supporting structure or simply for aesthetic purposes.
  • track subassemblies 102 and 104 have been mounted to the downward facing surfaces of ceiling subassemblies 10m and 10n to support monitor display arms 106 and 108 for movement within the space defined by configurations 89a and 89b.
  • FIG. 17 another configuration 110 that includes configurations 89c and 89d that are each akin to configuration 89 in Fig. 14 is illustrated.
  • configurations 89c and 89d are juxtaposed such that the corners formed by supporting subassemblies are adjacent and two separate spaces are formed, one space formed by each of configurations 89c and 89d.
  • FIG. 18 another configuration 114 including configurations
  • 89e and 89f that are akin to configuration 89 in Fig. 14 is illustrated.
  • configurations 89e and 89f are juxtaposed such that a surface formed by one of the supporting subassemblies of configuration 89e is adjacent a surface formed by one of the supporting subassemblies of configuration 89f and where the other supporting subassemblies of configurations 89e and 89f are generally parallel.
  • FIG. 19 another configuration 118 including two juxtaposed configurations 89g and 89h that are akin to configuration 89 in Fig. 14 is illustrated.
  • an outside lateral edge see 22 in Fig.
  • FIG. 20 Another configuration 122 that includes two configurations 89i and 89j that are akin to configuration 89 in Fig. 14 is illustrated. Here, configurations 89i and 89j are juxtaposed such that ceiling subassemblies are adjacent along an entire edge thereof.
  • Figs. 16 through 20 clearly many additional configurations can be formed using two subassemblies like the subassembly 89 in Fig. 14. In Figs. 16 through 20 examples of possible configurations are provided while many other configurations are contemplated.
  • Figs. 21 and 22 two additional configurations 128 and
  • each of the configurations 128 and 134 includes four configurations akin to configuration 89 in Fig. 14. As illustrated, as the number of configurations 89 is increased, the design and space delineation possibilities become much greater.
  • FIG. 23 another configuration 140 is illustrated that includes two planar L-shaped subassemblies 10o and 10p and two rectangular subassemblies 50a and 50b.
  • each of the rectangular subassemblies 50a and 50b has a similar design and therefore, only subassembly 50b will be described in any detail.
  • subassembly 50b has a generally rectangular shape when viewed from a plan perspective, from a side view
  • subassembly 50b is wedge shaped being wider near a bottom end than a at the top end.
  • subassemblies 50a and 50b are spaced apart and are arranged, generally, in perpendicular planes and planar L-shaped subassembly 10o forms a ceiling subassembly that is secured at opposite ends near the top edges of subassemblies 50a and 50b.
  • the second planar L-shaped subassembly 10p is mounted, generally at opposite ends, to each of subassemblies 50a and 50 near the bottom ends thereof.
  • subassembly 5Op is mounted to subassemblies 50a and 50b such that subassembly 5Op resides generally with a horizontal plane and so that subassembly 5Op is spaced above a supporting floor surface (not labeled).
  • subassembly 5Op may be disposed at a comfortable sitting height while in other embodiments subassembly 5Op may be disposed at a comfortable work surface height.
  • subassemblies 10q, 10r and 10s are arranged in a fashion similar to that illustrated in Fig. 14.
  • the difference in Fig. 24 is that, while subassembly 10s includes two relatively long integrally formed members, each of subassemblies 10q and 10r includes a relatively long member and a relatively short member integrally formed with the long member so that configuration 150 has a reduced depth.
  • subassemblies 10s and 10r form supporting subassemblies while subassembly 10q forms an elevated subassembly.
  • FIG. 25 another configuration 160 is illustrated that includes three planar L-shaped subassemblies 10t, 10u and 10v as well as one multi-planar L-shaped subassembly 3Oe. While subassembly 10t has two generally elongated integrally formed members, each of subassemblies 10u and 10v includes one elongated member and one short member. Similarly, subassembly 3Oe includes one elongated member and one short member. The short members of subassemblies 10u, 10v and 3Oe generally extend in the same direction such that configuration 160 again has a reduced depth.
  • subassembly 10v includes three planar L-shaped subassemblies 10w, 10x and 10y as well as one multi-planar L-shaped subassembly 3Of.
  • subassembly 10w includes two generally elongated integrally formed members
  • subassembly 10x includes one elongated member and one relatively short member such that, when subassembly 10x is secured to subassembly 10w as illustrated, the resulting sub-configuration has a generally narrow depth.
  • subassemblies 10y and 3Of form an internal configuration within the space defined by subassemblies 10w and 10x.
  • each of the configurations illustrated can be used to delineate a space within a larger space that is provided for a specific purpose such as, for example, facilitating a break-out session, forming an alcove for presenting information within a larger conference space, etc.
  • Fig. 27 the configuration 170 of Fig. 26 is illustrated as it may appear at the end of a conference room or space with additional information presentation components attached thereto.
  • configuration 170 is shown positioned within the corner of a conference space represented by numeral 172 where a supporting rail 174 has been mounted between subassembly 3Of and subassembly 10x.
  • a whiteboard 176 is shown attached to rail 174 where it is contemplated that whiteboard 176 may be slid along the length of rail 174.
  • Other whiteboards collectively identified by numeral 178 are shown within a lateral storage space formed by subassembly 3Of.
  • a rail may be attached to a lower edge or an inside surface of the horizontal elevated member that forms a portion of subassembly 10w to which a sliding flat panel display screen cart 180 can be attached for movement.
  • cart 180 may be moved all the way over and into a storage space 182 that is formed between facing surfaces of subassembly 3Of and subassembly 10w when not in use or when an information presenter wants to have two or more whiteboard positioned along rail 174 to show additional information.
  • lighting, speakers, a projector, etc. may be mounted within subassembly 10w.
  • configuration 170 serves several functions.
  • Second, configuration 170 has a space dividing effect that truly separates a person using information presenting tools associated therewith from an audience in a larger space.
  • the elevated members of subassemblies 10x and 10w form psychological phantom barriers between the space within the configuration 170 and the space outside the configuration.
  • a presenter feels relatively sheltered and unexposed and may be more confident presenting ideas.
  • configuration 170 provides surfaces on which information can be layered thereby facilitating a depth of information presentation that is impossible to achieve using a flat wall surface.
  • the front surface of subassembly 10w may be used to provide one type of information such as a meeting agenda
  • the display on cart 180 may be useable to provide another type of information such as a video clip, a view of a remote conference room, etc.
  • whiteboards 176 may be used to provide a third type of information.
  • space behind the support member of subassembly 10w is useable to store whiteboards, displays, etc.
  • Fig. 28 a configuration 150 like configuration 150 illustrated in Fig.
  • a multi-planar L-shaped subassembly 152 is mounted between a rear facing long horizontal edge of subassembly 10q and an upward facing long horizontal edge of subassembly 10r approximately midway along the mounting edges.
  • a flat panel display screen 154 is mounted to subassembly 3Og.
  • subassembly 30g will be secured to subassemblies 10q and 10r so as to be stationary.
  • subassembly 3Og may be mounted to rails along the edges of subassemblies 10q and 10r so that subassembly 3Og and the display screen 154 attached there to can slide or move along the entire length of the mounting edges.
  • elevated subassembly 10q and, more specifically, an external edge 135 of subassembly 10q forms a psychological phantom barrier that separates the space therebelow.
  • the phantom barrier creates a sort of stage for an information presenter while also facilitating a sense or a feeling of separation that, it is believed, will be comfortable to many configuration users.
  • FIG. 28a a top perspective view of a conference space
  • FIG. 28a it should be appreciated that the different configurations described above can be arranged and juxtaposed with respect to each other in various fashions to delineate separate spaces for various purposes within a larger nondescript space.
  • the space about a central table 201 can be used to facilitate a conference with several participants.
  • the spaces adjacent each of configurations 105a, 160a and 160b can be used to facilitate smaller breakout sessions and the spaces defined by configurations 811 and 89k can be ' used to facilitate two person breakout sessions in more intimate spaces where the elevated subassemblies provide a sense of separation from the larger non-descript space.
  • FIG. 29 another space delineating configuration 220 is illustrated that includes one planar L-shaped subassembly 10z and first and second rectangular subassemblies 50c and 5Od.
  • Subassemblies 10z and 50c are separated and in different but parallel planes such that the upper and horizontally extending second member of subassembly 10z extends generally in the direction of a top end of subassembly 50c.
  • Second rectangular subassembly 5Od extends from a portion of subassembly 50c proximate the top end thereof to a portion of subassembly 10z below the upper and horizontally extending second member of subassembly 10z and is generally aligned along a horizontal plane.
  • Member 5Od has oppositely facing elongated edges 222 and 224.
  • large flat panel display screens (only one illustrated and identified by numeral 226) extend down from each of edges 222 and 224 generally within the space between subassemblies 50c and 10z.
  • the large display screens can be separately used on opposite sides of configuration 220 to present information.
  • 50c and 10z may be used in addition to display 226 to provide information including, perhaps, different types of information.
  • FIG. 30 another configuration 240 is illustrated that includes first and second planar L-shaped subassemblies 10aa and 10bb, respectively, and a single rectangular subassembly 5Oe.
  • horizontal upper and elevated members of subassemblies 10aa and 10bb generally extend toward each other and are in parallel but different vertical planes and subassembly 5Oe is juxtaposed below the horizontally extending members of subassemblies 10aa and 10bb and is juxtaposed at an angle with respect to the planes in which subassemblies 10aa and 10bb are disposed.
  • large flat panel display screens (only one illustrated and labeled 242 in Fig.
  • subassembly 5Oe are mounted to oppositely facing long edges of subassembly 5Oe and extend downward therefrom generally within the space between subassemblies 10aa and 10bb.
  • another relatively smaller flat panel display screen 244 is mounted to one of the flat surfaces formed by subassembly 10aa to face generally in the same direction as screen 242.
  • other smaller display screens akin to screen 244 may be provided on other flat surfaces formed by subassembly 10aa and/or 10bb.
  • FIG. 31 another configuration 250 is shown that includes three rectangular subassemblies 50f, 5Og and 5Oh where subassemblies 5Of and 5Og are spaced apart and are generally aligned along different but parallel planes and subassembly 5Oh extends between subassemblies 5Of and 5Og near the upper ends thereof and is perpendicular thereto.
  • first and second large flat panel display screens 252 and 254 are mounted to and extend downward from opposite long edges of subassembly 5Oh generally within the space between subassemblies 5Of and 5Og.
  • FIG. 32 yet another configuration 260 is illustrated that includes three planar rectilinear subassemblies 5Oi, 5Oj and 50k.
  • Subassemblies 5Oi and 5Oj are spaced apart and are aligned along parallel but different planes and are misaligned so that, in front plan view, first surfaces of each of subassemblies 5Oi and 5Oj are observable.
  • Subassembly 50k is mounted at one end along a portion of one of its long edges to the first surface of subassembly 5Oi.
  • subassembly 50k is mounted proximate its other end and along a portion of its second long edge to a second surface of subassembly 5Oj that faces in a direction opposite that of the direction of the first surface of subassembly 5Oi.
  • Configuration 260 may be used as an entry way or, as in the case of the embodiments of Figs. 29 through 31 , to support flat panel or other types of display screens in various ways.
  • another configuration 280 includes, among other components, first through fourth planar L-shaped subassemblies 10cc, 10dd, 10ee and 10ff, respectively, and first through fourth planar rectangular subassemblies 50I, 50m, 5On and 50o, respectively.
  • Subassemblies 10cc, 10dd, 10ee and 10ff are arranged and have dimensions as illustrated so as to form a space that generally resides between subassemblies 10cc and 10ee along one dimension and between subassemblies 10dd and 10ff along a second dimension.
  • a distal end of subassembly 10ff is supported by a post or kick-stand member 282 that extends downward from a lower edge thereof.
  • Rectangular subassemblies 5On and 5Oo are mounted to top edges of subassembly 10dd to provide different height flat horizontal surfaces that can be used for various purposes.
  • Subassembly 50m is secured along a . short edge to one of the long edges of subassembly 10ee and extends to a distal end 284 that resided above one edge 286 of rectangular member 5On.
  • a second post or kick stand member 288 is provided and extends down from distal end 284 to the upward facing surface of subassembly 5On to support the distal end of subassembly 50m as illustrated.
  • Subassembly 5Ol is mounted along a short edge to a top edge of subassembly 10cc and extends over and is spaced apart from a top edge 292.
  • a third post 294 is provided that extends down from an undersurface of subassembly 5Ol to top edge 292 to support subassembly 5Ol thereabove.
  • Configuration 280 shows the versatility of the present concept and how a small set of pre-manufactured components can be used to configure relatively complex and useful space dividing configurations.
  • subassembly 300 includes first and second planar L-shaped subassemblies 10gg and 10hh, respectively.
  • subassembly 300 includes an arch subassembly 302 that includes first, second and third rectangular members 304, 306 and 308 where members 304 and 306 extend upward from lower edges 310 and 312, respectively, and include internal edges 314 and 316, respectively.
  • Member 308 extends between top ends of members 304 and 306 and is integrally formed with edges 314 and 316 at opposite ends. While shown as integral, members 308, 304 and 306 may be separate subassemblies that need to be assembled at a use location or may be a frame panel configuration in some embodiments. Member 308 includes a bottom edge 320.
  • a distal lateral edge 322 of subassembly 10hh is secured to a portion of a internal edge 314 while a distal lateral edge 324 of subassembly 10gg is secured along a portion of internal edge 316.
  • edges 322 and 324 will be hingedly secured to edges 314 and 316 so that subassemblies 10hh and 10gg can be rotated about pivot axes adjacent edges 314 and 316, respectively.
  • subassemblies 10hh and 10gg may be moved into essentially the same plane as or adjacent planes to subassembly 302.
  • subassemblies 10hh and 10gg can be rotated into the orientations illustrated in Fig. 36. In the illustrated orientation, subassemblies 10hh and 10gg are in parallel but different planes. In other configurations, subassemblies 10hh and 10gg may be oriented in non-parallel planes.
  • configuration 300 can be used to delineate various spaces for different purposes. For instance, when approaching configuration 300 along a trajectory generally perpendicular to the visible surface of arch subassembly 302 in Fig. 36, the visible surface of subassembly 302 and the outward facing surface of subassembly 10hh can be used to present various information types. Inside the space between subassemblies 10hh and 10gg inward facing surfaces of subassemblies 10h and 10gg can be used to present other information. On the rear side of subassembly 302 and the outward facing surface of subassembly 10gg still another type of information may be presented.
  • elevated member 308 forms a psychological phantom barrier separating the spaces on opposite sides thereof.
  • a configuration user may want to present different information types on each side of subassembly 302 such as information corresponding to past activity and future activity.
  • the phantom barrier is useable to highlight differences in information type.
  • FIG. 37 two configurations 300a and 300b are illustrated that are akin to configuration 300 described above with respect to Fig. 36.
  • configurations 300a and 300b are juxtaposed with respect to each other so as to divide a space in a unique fashion.
  • configurations like 300a and 300b may be arranged in many different orientations and, in at least some cases, may be positioned with respect to other configurations described above and indeed other configurations contemplated by the present invention, to differently delineate larger spaces.
  • FIG. 38 a top plan view of a conference space 340 having a relatively large opening 342 in one wall thereof and a configuration 300c akin to configuration 300 described above with respect to Fig. 36 juxtaposed within the opening 342 is illustrated.
  • planar L-shaped subassemblies 10ii and 10jj can be positioned with respect to the arch type subassembly 302a such that subassembly 10ii extends into space 340 and subassembly 10jj extends out of space 340.
  • configuration 300c acts to delineate different spaces as people arrive for a conference within space 340.
  • subassemblies 10jj and 10ii are hinged to subassembly 302a
  • subassembly 10ii may be rotated along the direction indicated by arrow 343 until subassembly 10ii is generally parallel to subassembly 302.
  • space 340 becomes less encumbered and the surfaces of subassembly 10ii facing space 340 can be used to present information.
  • Subassembly 10jj can be stowed parallel to subassembly 302a during conferencing or could be rotated to an orientation perpendicular to subassembly 302a for presenting general information about the conference within space 340, to present a space use schedule for space 340 or for presenting information useful for some other purpose.
  • FIG. 39 one additional configuration 350 that is akin to subassembly 302 illustrated in Fig. 36 is shown within a conference space 352 where subassembly 350 is located proximate one end of space 352 and thereby forms an alcove 354 at the adjacent end.
  • subassembly 350 in Fig. 39 provides a more intimate space for presenting information as well as spaces behind the vertical rectangular members for storing equipment, computers, etc.
  • Fig. 40 two identical space delineating configurations 360 and 362 are shown in a conference space 364 for dividing the conference space 364 into different subspaces.
  • configuration 360 like subassembly 302 includes first, second and third planar rectilinear subassemblies 366, 368 and 370. As illustrated, subassemblies 366 and 368 extend upward along their length dimensions and subassembly 370 extends between top portions of subassemblies 366 and 368 to form an elevated overhead member.
  • subassembly 370 is hingedly mounted at opposite ends to facing edges of subassemblies 366 and 368 so that angles between subassembly 370 and each of subassemblies 366 and 368 can be modified.
  • configuration 360 is positioned within space
  • each of planar rectangular subassemblies 366 and 368 are generally parallel to end wall 376 and are separated by different distances therefrom such that subassembly 370 is angled with respect to wall 376.
  • configuration 362 is similarly positioned with respect to an opposite end wall 378 of space 364. Other configurations are contemplated.
  • configurations described above and indeed other configurations that may be constructed using the subassemblies described above may be completely pre- manufactured and predesigned for delivery and installation further restricting architect choices to relatively optimal choices and providing even more finished appearing configurations.
  • configuration 69 may be completely pre- manufactured for delivery to a space in which the configuration is to be employed so that an architect does not have any choice regarding configuration design.
  • the configuration illustrated in Fig. 10 may be completely pre- manufactured to be delivered for set up where the constituent parts only go together in a single fashion.
  • the configuration 89 illustrated in Fig. 14 may be completely pre-manufactured for deliver.
  • subassemblies or configurations described may include members that are hinged for movement between transport and use positions.
  • subassembly 30 may include a hinge between members 32 and 34 at the space identified by numeral 400 so that members 32 and 34 can be positioned in generally parallel planes and adjacent each other for easy transportation.
  • configuration 88 may include subassemblies 10e and 10f that are hinged along adjacent edges 17e and 17f (and hence that are prefabricated together) such that subassemblies 10e and 10f can be rotated into generally parallel and adjacent planes for easy transport.
  • subassembly 10 may include lighting and/or visual and/or audio output devices or displays.
  • first or second side surfaces 24 or 26 or, indeed in at least some embodiments, any of the surfaces that form edges 16, 22, 20, 18, 15, 13 or 17, may be provided with visual information generating devices or lighting devices.
  • information providing devices it has been recognized that subassembly surfaces for dividing or delineating smaller spaces within a larger space typically are much larger than a conventional work station display screen and therefore provide a large amount of space for disseminating information.
  • the granularity of the information presented via subassembly surfaces can be much greater (i.e., pixel size of displays used to present information via the subassembly surfaces can be greater than is typical in the context of a work station).
  • light devices 402 may be provided within subassembly 10 to provide light to space adjacent thereto.
  • large pixel display screens 404 may be provided as part of subassembly 10.
  • pixels may be anywhere from one sixteenth of an inch to three inches in diameter depending on display size and an intended visual effect.
  • more expensive flat panel LCD and plasma type displays 405 that have high definition capabilities may be provided as part of subassembly 10.
  • different colored lights 402 may be provided at different locations on surfaces of subassembly 10 to indicate status of a meeting, status of information being presented, etc. As illustrated in Fig.
  • light and indicating light devices 402 may be provided along any of the subassembly edges.
  • light devices 402, large pixel displays 404 and small pixel displays 405 may also be provided via any of the surfaces or edges of subassemblies 30 or 50.
  • Exemplary bar 407 includes a daily schedule indicating light bar 409, a current event indicating light bar 411, a "Welcome" indicator 413, a phone indicator 415 a conference indicator 417 and a traveling indicator 419.
  • Schedule indicator bar 409 includes a line of LED or other types of light devices that each correspond to a different sub-period (e.g., /4 hour) of a work day where the devices have two different colors, one color indicating that a person associated with the schedule is busy and the second color indicating an open time in the persons schedule.
  • Status indicator bar 411 includes a line of light devices that indicate time remaining during a current activity for a person associated with the indicator. For instance, where a teleconference is scheduled for 45 minutes and each light device corresponds to a five minute period and when 15 minutes remain during the 45 minute period, three light devices may be illuminated as indicated by cross-hatching in Fig. 43.
  • both of indicators 409 and 411 may be linked to a personal computer 500 (see again Fig. 1a) or network server that maintains a schedule for a person associated with status bar 407 so that indicators are automatically updated.
  • phone indicator 415 may be illuminated when a person associated with bar 407 is currently on a phone.
  • Conference indicator 417 may be illuminated when more than one person is within a space associated with bar 407.
  • Travel indicator 419 may be illuminated when a person associated with bar 407 is currently traveling where travel schedule is determined by accessing the persons electronically stored schedule. Bar 407 is only exemplary and other status indicating configurations are contemplated.
  • status indicator bars 407 will be juxtaposed at relatively high locations so that people remote from a space dividing configuration can easily see the bars.
  • different color LEDs or other light devices will be used for different indicators so that different statuses are distinguishable at locations remote from the indicators.
  • a status indicator bar may be mounted to or integrated into one or more of the subassembly edges as illustrated at 407a and 407b.
  • the screens, lighting devices, etc. will be integrated within the subassemblies 10, 30 and 50 while in other cases the screens and devices may mount to external surfaces thereof.
  • the boundaries of the devices will be difficult or impossible to discern when the light devices and/or screens are not energized. In these cases where boundaries are difficult to discern, a particularly attractive configuration results.
  • each of three planar L-shaped subassemblies 10ii, 10j j and 10kk is formed from two planar members with cylindrical lighting devices disposed therebetween, several of these cylindrical lighting devices collectively identified by numeral 432.
  • one of the planar members of each subassembly 10ii, 10jj and 10kk will be translucent or semi-translucent such that, when a light device 432 adjacent thereto is illuminated, light will pass through the translucent member.
  • the other member that forms one of the subassemblies 10ii, 10jj and 10kk will be opaque.
  • FIG. 1 a through 6 in at least one embodiment, by employing different types of information presenting tools at different locations on subassembly surfaces, the information presentation itself will enhance the psychological sense that specific spaces relative to configuration 69 are reserved for certain types of information receiving activities. For instance, where a large pixel display 404 is provided within the relatively high elevated member 14 and adjacent portion of member 12, the technology itself will enhance the perception that information presented via display 404 is for distant viewing. Similarly, where a relatively smaller flat panel display 405 is provided within or mounted on a lower surface portion of member 12, the smaller information presentation format combines with the lower juxtaposition to enhance the perception that information presented via display 405 is for more proximate and private viewing.
  • the lighting can enhance the psychological perception of phantom barriers between the space below member 34 and the larger ambient space.
  • light may be collimated to only illuminate a space of an ambient supporting floor immediately below member 34 or, in some cases, one or more laser type lighting devices may be provided within member 34 that form a rectilinear light line on an ambient supporting surface immediately below the edges of member 34 to clearly demark spaces.
  • a similar illuminating light line may be formed below the lower edge of member 14 (see again Fig. 6) using a laser source or the like.
  • an exemplary assembly 502 is illustrated that includes a planar L-shaped base assembly 504 akin to the subassembly described above and a technology layer subassembly 506.
  • Subassembly 504 includes mounting assemblies collectively identified by numeral 508 and subassembly 506 includes complimentary mounting assemblies on a rear surface (not illustrated) thereof, two of which are shown in phantom in Fig. 44 and are labeled 510.
  • Mounting assemblies 510 are positioned to align with assemblies 508 when subassembly 506 is adjacent subassembly 504 and to securely mechanically fasten thereto.
  • power and data linkages will be automatically made when assemblies 508 and 510 mate while in other embodiments power and data lines will directly link to subassembly 506 and will not be routed through subassembly 504.
  • non-planar and non-rectangular members may be employed to give a different aesthetic appearance yet provide much of the same functionality (e.g., information providing surfaces) as the embodiments described above.
  • Fig. 45 an exemplary arch 600 that is similar to the arch illustrated in Fig. 4 is shown. The differences between configuration 69 in Fig. 4 and configuration 600 in Fig.
  • a planar L subassembly 608 similar to subassembly 10 in Fig. 1a is formed by a generally vertically extending lower member 610 and a generally horizontally extending upper member 612.
  • member 610 generally curves into member 612 so that there are no hard edges where the members 610 and 612 meet.
  • adjacent members 604 and 612 are generally oriented in a horizontal plane and in a vertical plane, respectively.
  • member 604 curves to meet the adjacent end of member 612 so that the transition between members 604 and 612 is smooth.
  • members 604 and 612 may be contiguously formed while in other embodiments a separate curved connecting portion (not illustrated) may be provided with opposite ends in vertical and horizontal planes, respectively, with a curved section between the ends.
  • Fig. 46 another configuration 620 is illustrated that is similar to the configuration 600 shown in Fig. 45.
  • Differences between configurations 620 and 600 include member shapes and thicknesses. Whereas the thickness of the members that form configuration 600 are generally uniform, the thickness of at least member 622 in Fig. 46 varies and is greater near the bottom than near the top. Other members that form configuration 620 may also have varying thicknesses in at least some embodiments.
  • members 624 and 626 that together form a planar L subassembly 628 are each generally planar but are not rectangular in shape. To this end, member 624 is wide at a bottom end and tapers to a narrower top end. Similarly, member 626 is relatively narrow at the end that is connected to member 624 and widens toward a distal end opposite member 624. [0158] Referring to Fig. 47, yet one other arch configuration 640 is illustrated which includes curved members instead of planar members to form an arch. For instance, as illustrated, a multi-planar subassembly 642 is formed by two integral curved members 644 and 646. While Fig.
  • members 644 and 646 may also have at least some contour along edge 648 and an oppositely facing edge (e.g., see the contour of oppositely facing edges 650 and 652 of member 654).

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Abstract

La présente invention concerne un dispositif préfabriqué à mettre en place dans un espace intérieur, comprenant une face ambiante, le dispositif comprenant une sous-structure qui comprend un élément de support sensiblement plan et un élément élevé sensiblement plan. Selon l'invention: l'élément élevée comprend un premier bord distal, des bords supérieur et inférieur et une première et une seconde face opposées; l'élément de support comprend une extrémité inférieure et une extrémité supérieure, un premier et un second bord latéral, et une première et une seconde face opposées; l'élément élevé s'étend à partir de l'extrémité supérieure de l'élément de support pour matérialiser une forme de L, la première et la seconde face de l'élément élevé, étant sensiblement parallèles à la première et la seconde face de l'élément de support, et l'élément élevé se trouvant en porte-à-faux au-dessus de la face ambiante et séparant l'espace sur des côtés opposés de la sous-structure, lorsque l'extrémité inférieure de l'élément de support, prend appui sur la face ambiante.
PCT/US2006/044049 2005-11-15 2006-11-14 Systeme de subdivision d'espace pour espaces interieurs WO2007059060A2 (fr)

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