JP2001505269A - Modular floor tiles and floor systems - Google Patents

Abstract

SUMMARY A modular tile and a modular tile system are disclosed. The tile has a horizontal portion, an upper strut member, and four support legs that engage the floor to form a lower chamber. The cover is supported by the upper strut member and defines an upper chamber capable of receiving cables. The modular tile has a connection point at each corner. In a modular tile system, at least two modular tiles are arranged at a common point. The tile connector removably connects the modular tiles to a platform configuration. In another embodiment, a work environment element is provided on a modular tile platform. Each modular tile has an array of holes capable of receiving the protrusions of the indexing element associated with the work environment element. In another embodiment, a modular tile system distributes power. An electrical connector conducts power to a first modular tile circuit formed by the first and second conductors. The modular tile connector electrically connects the first circuit to the second modular tile.

Description

DETAILED DESCRIPTION OF THE INVENTION                   Modular floor tiles and floor systems Background of the Invention   The present invention relates generally to modular tiles and modular tile systems. And more specifically, modular tiles and modules installed on existing floors. Related to the tile system.   Work environment is equipment that contributes to the environment, including power, data and communication networks The growing need for simplification has greatly increased complexity. Often these environments Must distribute power to devices such as computers and printers. Also, Many environments use office-to-office email, global Internet connectivity, and local Do not distribute data and communication cables that support intranet connections. I have to. The importance of this increased complexity in the work environment is the efficiency The need to distribute and manage cables in a safe and aesthetic manner And   Another demand often found in modern working environments is that they are easy to configure and reconfigure. To be able to cope with the changing demands and effects of the workplace without difficulty.   Large amounts of power and data cables throughout the office environment One solution to provide is a lifting floor, that is, a fixed distance above the existing floor. Building a floor with a space for cables between them. Birdy Several lifting floors are built or attached when the building is built, These raised floors consist of relatively large panels, some of which access the space. Can be lifted to access. Other lifting floor systems will be installed later A grid-like support member and a panel installed on the support member That is, it consists of tiles. Such a component retrofit system (pieced-together One example of such a system is disclosed in Kobayashi et al., US Pat. No. 4,593,499.   In general, lift floors, both built-in floors and retrofitted floors, Installed by a skilled trader with special tools. Usually adequate support capacity and adequacy What Gaining leveling is an important concern. For this reason, the conventional lifting type Floor installation and / or reconfiguration is often costly. Also one With a typical lifting floor, the configuration and reconfiguration of the working environment elements is not easy.   Lifting floors are most often installed in a wall-to-wall structure. Not only equip the floor where they want to use the raised floor, but You must undertake to equip a lifting floor. This fact is Several workstations that differ in the environment, in particular between one worker and another Reduce the effectiveness and suitability of the raised floor to the work environment that needs to be provided. More specifically, in some work environments, meet the needs in the relevant part of the work environment It is desired to form a platform with a lifting floor.   Conventional lifting floors often lack special cable management capabilities. For example, in some systems, cables are not separated from each other, Not separately managed within. For this reason, power cables, communication cables and Cause interference and noise problems between the data cables.Summary of the Invention   Briefly, the present invention relates to modular tiles and modular tile systems. About   Modular tiles have a base structure with nearly horizontal sections and four support legs. It has structure. The support legs engage with the existing floor and support the horizontal part upward from the existing floor. This forms a lower chamber between the existing floor and the horizontal section. Tiles also , Four upper strut members and a certain distance upward from a horizontal portion by the upper strut members And a cover which is spaced apart and thereby forms an upper chamber.   In another aspect of the invention, a system of tiles comprises at least four modules. The modular tiles have a corner of each modular tile. They are arranged to match at common points. Tile base with almost horizontal part The structure, the connection points of each corner, and the four And supporting legs. The lower chamber can receive a cable. water Four upper strut members extend above the flat base structure. The upper strut Lumber Supports the cover, which allows the cable to be received An upper chamber is formed. The tile connector engages adjacent to the connection point and the module Removable tiles.   In another aspect of the invention, a modular tile system is provided on which work is performed. A modular tile system is provided in which an environment is formed. As a work environment, Panels, screens, work surfaces, storage cabinets and ramps and lights etc. There are elements. The system consists of multiple units that are placed on an existing floor to form a platform. Of modular tiles. Each tile has a bottom and a top, and the top is An array of holes capable of receiving the protrusions of the indexing element associated with the Have.   In another aspect of the invention, a system distributes power in a work environment. This cis The system has an electrical connector that receives power from a power source. 1st modular The tile has a circuit formed by the first and second conductors. The first circuit is Receives power from electrical connectors. The second modular tile comprises first and second leads. It has a circuit formed by the body. The modular tile connector is the first The first circuit and the second circuit so that the second circuit is energized by the power received by the road. Make an electrical connection.   The present invention relates to general raised floor tiles and raised floor tile systems. Provide great advantages. The present invention provides a modular floor tile with exposed edges. provide. Preferred modular tiles are easy to configure and provide an efficient distribution of cables. Distribution and management are possible. The term "cabling" refers to power cables, Equipment used for data cables and work environment and corresponding work environment elements Means cables and wiring. The term "work environment element" refers to work surfaces, panels, Includes elements such as screens, storage cabinets, ramps, etc. Work ring Computer, light, sound booms, electric power Electric devices such as a panel, a screen, and a work surface are also included.   The preferred form of the present invention can be configured into a fixed shape and can be connected and disconnected quickly. Modular.   The present invention also provides a modular tile platform or modular tie. Related to islands composed of le. Modular tile platform Activities in a standing position, activities in a dynamic movable office chair, low- Activities, breakouts, serving areas, team group activities and managers and secretaries Can be used for various activities, including connections with For use as a modular platform The word is that connected modular tiles do not necessarily have to be installed in a wall-to-wall structure. Not meant to consist of floors. Preferably, the modular tiles are free standing There is no structural restriction due to the wall of the building. Therefore, the preferred module The tiled platform does not need to abut the walls of the building.   The modular tile platform environment of the present invention has the attendant economic benefits. Can be provided. For example, in certain rental situations, modular tiles And improve certainty, thus giving a certain rental profit. Tiles are also available for new tenants Can be quickly reconfigured for In addition, such a tile configuration typically involves the following: It can be easily transported by the tenant because it is quickly deployed in the place where it is located. This site group Support standing ability and frequent changes related to temporary or visiting work environments With the ability to rent, a modular environment can enhance renting and leasing opportunities.                               BRIEF DESCRIPTION OF THE FIGURES   FIG. 1 is a perspective view showing a modular tile according to a preferred embodiment of the present invention. It is.   FIG. 2 shows a modular tie incorporating the modular tile shown in FIG. It is a perspective view showing a ru platform.   FIG. 3 is a partial side view of the modular tile platform shown in FIG. FIG.   FIG. 4 is an exploded perspective view showing one of the modular tiles shown in FIG. .   FIG. 5 is a plan view of the base structure shown in FIG.   FIG. 6 is a bottom view of the modular tile cover shown in FIG.   FIG. 7 is a side view of the modular tile cover shown in FIG.   FIG. 8 is used to connect the four modular tiles shown in FIG. FIG. 3 is a perspective view showing a four-way tile connector.   FIG. 9 is a plan view of the four-way tile connector shown in FIG.   FIG. 10 shows a block diagram of the three modular tiles shown in FIG. FIG. 3 is a perspective view showing a three-way tile connector to be used.   FIG. 11 is a plan view of the three-way tile connector shown in FIG.   FIG. 12 is used to connect the two modular tiles shown in FIG. FIG. 4 is a perspective view showing a two-way tile connector to be used.   FIG. 13 is a plan view of the two-way tile connector shown in FIG.   FIG. 14 is a perspective view of the corner member shown in FIG.   FIG. 15 is a side sectional view of the corner member taken along line 15-15 of FIG.   FIG. 16 is a perspective view of the horizontal partial member shown in FIG.   FIG. 17 is a side sectional view of the horizontal part member taken along line 17-17 of FIG.   FIG. 18 is a plan view of a portion of the modular tile platform shown in FIG. In the figure, the top of the modular tile has been removed.   FIG. 19 shows two linked modular tabs along the line 19-19 in FIG. FIG.   FIG. 20 shows a generally horizontal conductor of the modular tile shown in FIG. FIG.   FIG. 21 is an enlarged view showing one of the corner electrical connection points of the conductor shown in FIG. is there.   FIG. 22 is a plan view showing another preferred embodiment of the modular tile. .   FIG. 23 is a side view of the modular tile shown in FIG.   FIG. 24 shows a modular tile platform with a sound boom indexing element. FIG. 27 is a side cross-sectional view of a portion of the platform, taken along line 24-24 of FIG. 26.   FIGS. 25 (a) to 25 (d) show another preferred embodiment of the modular tile indexing means. 3 is a diagram showing a preferred embodiment.   FIG. 26 illustrates a platform operation incorporating a preferred embodiment of the present invention. It is a perspective view which shows an environment.   FIG. 27 is a plan view of the work environment shown in FIG.   FIG. 28 is a side view of the work environment shown in FIG.   FIG. 29 is a plan view showing still another embodiment of the present invention.   FIG. 30 has a leveling member located on the support legs of the modular tile. A modular tile platform similar to the platform shown in FIG. FIG. 3 is a partial side sectional view showing the arm.   FIG. 31 shows a modular tile plug according to another preferred embodiment of the present invention. It is a side view which shows a home work environment.   FIG. 32 shows the modular tile platform working environment shown in FIG. It is the top view which partly fractured.   FIG. 33 shows a modular tile incorporating another preferred embodiment of the present invention. It is a top view showing a platform.   FIG. 34 shows another embodiment of the modular tile platform shown in FIG. It is a top view of a form.   FIG. 35 is a modular tile platform along the lines 34-34 of FIG. FIG. 3 is a side sectional view of a ramp section.   FIG. 36 shows a modular tile platform incorporating another embodiment of the present invention. It is a top view showing a home.   FIG. 37 shows a modular tile platform incorporating another embodiment of the present invention. It is a top view showing a home.   FIG. 38 is a modular tile platform incorporating another embodiment of the present invention. It is a top view showing a home.Detailed Description of the Preferred Embodiment   Referring to the drawings, FIG. 1 shows a module incorporating a preferred embodiment of the present invention. FIG. 2 is a perspective view showing a ruled tile 95. The modular tile 95 is preferably , Exposed along its edge and placed on top of an existing floor 38. Figure 2 , A modular tie constructed using the modular tile 95 shown in FIG. It is a perspective view showing ru platform 39. As shown in Fig. 2, modular The side edges of the tile platform 39 are preferably formed of the tile itself, and Thus, the side edges of the outermost tile are left exposed. This is a platform This is preferable in terms of design simplicity, appearance and function.   In another less preferred embodiment, the trim covering the side edges of the outermost tile is Provided. The length of such trim should be equal to the length of each tile Can be. Alternatively, increase the trim length to cover the side edges of multiple tiles can do. Such long trim lengths can be cut to the desired length on site. It can be made to work.   Along the edge of the modular tile platform 39, a ramp 370 Can also be provided. For such a ramp 370, FIGS. It will be described later with reference to the drawings.   FIG. 3 is a partial side view of the modular tile platform shown in FIG. is there. FIG. 3 shows a module connected to two modular tiles 91, 93 An expression tile 95 is shown. FIG. 4 is a sectional view of the modular tag shown in FIGS. FIG.   As shown in FIGS. 1-4, the modular tile 95 is preferably square It has a shaped top 575 and a square bottom 585. Preferred modular The typical dimensions of a tile are 18 inches wide and 18 inches high is there. The top 575 connects the insulating member 631, the cover 621, and the floor cover 601 to each other. Have. The bottom part 585 includes the base structure 641 and the tile connectors 301 and 40. 1, 501, a corner member 800, and a horizontal partial member 900. Third These elements will be more clearly described with reference to the figures and FIG.   FIG. 3 is a complete side view of the modular tile 95 and the modular tile. It is a partial side view of the ills 91 and 93. The structure of the modular tiles 91, 93 is The overall structure is the same as that of the modular tile 95. Modular tile 95 Are connected to modular tiles 91 and 93 via connectors 475 and 99, respectively. Are linked. Cables 2, 4 are also shown. The tile 95 is preferably Are exposed along each edge of the Placed efficiently under In a preferred embodiment, cable 2 is for power , Cable 4 is for communication.   Base portion 585 is mounted on existing floor 38 and forms lower chamber 85 I do. The top 575 is located on the bottom 585 so that the upper chamber 75 Is formed. Both chambers 75 and 79 accommodate cables, electrical components 1 and the like. be able to. Electrical component 1 housed in either chamber 75 or 79; And have transformers, junction boxes, outlet boxes, wiring harnesses and other similar electrical components. You. Preferably, the lower chamber 85 forms two channels 87, 89 and The chamber 83 forms two channels 74, 75. Power cable 2 The communication cable 4 is disposed in the channels 75 and 89 and the communication cable 4 is disposed in the channel 75. Be placed. Alternatively, as shown in FIG. 3, the cable 83 Between the modular tiles 95, 93 and below the modular connector 99. Can also be placed.   Separating the power cable 2 and the communication cable 4 provides many advantages. . For example, this separation allows for failure detection when equipment maintenance is required. Can provide an easy way. Also minimize the risk of electrical interference. Even more By arranging the high-voltage cable 2 in the lower chamber 85, the work environment is occupied. The risk of electric shock for the owner can be reduced.   FIG. 4 is an exploded view of the modular tile 95 shown in FIGS. Preferably, base portion 585 is substantially positive with a generally horizontal portion 643. It has a square base structure 641. FIG. 5 is a plan view of the base structure 641. is there. Preferably, horizontal portion 643 includes various sets of holes, upper strut members and support Has legs.   As shown in FIGS. 3, 4 and 5, the horizontal portion 643 includes a first set of holes. 120, a second set of holes 140, a third set of holes 910, and a fourth set of holes 810. And These sets of holes can serve many beneficial purposes. For example, The use of the hole 120 allows the cable placed above or below the horizontal portion 643 to be connected to the cable. It can be fixed using a cable tie (not shown). Hole 20 also has an assembled tap. Located in either the upper chamber 75 or the lower chamber 85 of the To access and pull through the horizontal portion 643. Obedience Therefore, the installed cables are connected to the upper and lower chambers 75 in one modular tile. , 85 and cable without re-installing the entire base structure 641 Can be re-installed or re-managed.   The holes 120 also reduce the amount of material required for the base structure 641, and Reduce costs. The resulting modular tile 95 is lighter and The operation and installation are also easy. In addition, the hole 120 is formed by the flexibility of the base structure 641. , Which can be matched to the surface irregularities of the existing floor. Preferred In particular, horizontal portion 643 has a second set of holes 140. The hole 140 is also the hole 12 Gives the same advantages as 0.   As shown in FIGS. 4 and 5, the horizontal portion 643 is preferably a third set. Hole 910 and a fourth set of holes 810. The third set of holes 910 is made of water. It can cooperate with the flat part member 900. The fourth set of holes 810 is It can cooperate with the corner member 800.   Preferably, the four corners 661, 663, 665, 667 of the base structure 641 Are integral with the four upper strut members 645, 647, 649, 651. Or The upper support members 645, 647, 649, 651 are integrally formed with the top 575. You can also. The upper support members 645, 647, 649, 651 3 and extends upward from the plane formed by the Have been.   The four upper strut members 645, 647, 649, 651 are An upper chamber is formed on the upper surface. The top 575 includes these four upper strut members Placed on top of In another embodiment, the top 5 is provided by four or more upper strut members. 75 are supported. The addition of the upper strut members offers many advantages. First , The upper chamber is further divided by additional upper strut members, Channels can be formed for installation and management of air components. Also, The additional upper strut members can increase the rigidity and strength of the modular tile 95. Can be.   Preferably, the additional upper strut member comprises a horizontal part member 900 and a corner member 800 It consists of both. The third set of holes 910 allows the horizontal part It can be detachably attached to the device. The base structure 641 has five It has a horizontal part 900 (only one horizontal part 900 is shown in FIG. 4). It is shown). Preferably, one horizontal section member 900 is placed in horizontal section 643. It is arranged at the center 679. The other four horizontal part members 900 are connected to two adjacent upper supports. The column members 645, 647, 649, 651 are arranged at intervals.   Preferably, the member 900 is disposed on the horizontal portion 643 and the horizontal portion 643 Up to the same relative height as the upper support members 645, 647, 649, 651 Extending toward you. In the modular tile 95, the surface 680 of the insulating member 631 is It is arranged on the member 900. In this preferred embodiment, member 900 comprises a module. Forming an additional support for the tiled tile 95, thereby providing stability and And rigidity are increased.   FIG. 16 is a perspective view showing a preferred embodiment of the horizontal part member 900. FIG. No. FIG. 17 is a cross-sectional view of the horizontal part member 900 along the line 17-17 in FIG. As shown in FIG. 16 and FIG. And a top 930.   The bottom part 920 is provided with a plurality of fixing means for fixing the member 900 to the base structure 643. It has a step. Bottom 920 includes locking tabs 925 arranged in a generally cylindrical manner. Have. In a preferred embodiment, the three tabs 925 are three of the horizontal portions 641 Cooperate with a hole 910 in Alternatively, three or more securing tabs 925 may be provided. Can be. Tab 625 prevents attached member 900 from rotating. You.   Top 930 has a top surface 934, a bottom surface 938, an outer surface 931 and a hole 950. It consists of a substantially cylindrical member. Hole 950 extends from top surface 934 to bottom surface 938 And a projection of the indexing element associated with the working environment element can be received. Preferably, the top surface 934 of the hole 950 is provided with a bevel 936 to provide a protrusion. Can easily enter the hole 950.   An upper member 930 extends from a hole 950 to an outer surface of the upper member 930. Channel 942. The channel 942 has an attached protrusion that rotates To prevent The member 900 includes a base structure 643 and a connecting member 301, Preferably, it is a single part made of the same type of material as 401,501. Or , Member 900 can be formed integrally with base structure 643.   As described above, the base structure 641 may include a fourth set of cooperable corner elements 800. It has a hole 810. As shown in FIGS. 4 and 5, the member 800 is a horizontal part. It cooperates with hole 810 at four corners of minute 643. Preferably, the member 800 is Horizontal portion 64 to the same relative height as the support members 1645, 647, 649, 651 3 extends vertically upward. When placed on the horizontal portion 643, the member 800 Under the corners 622, 624, 626, 628 of the cover 621, the insulating member 63 1 cooperates with the lower surface 680. In a preferred embodiment, member 800 is modular Form additional support for tile 95, thereby increasing stability and stiffness Let it.   FIG. 14 is a perspective view showing a preferred embodiment of the corner member 800. First FIG. 5 is a side sectional view of the member 800 along the line 15-15 in FIG. Fig. 14 As shown in FIG. 15, the corner member 800 has a bottom 820 and a top 830. Have. Bottom portion 820 is used to secure member 800 to base structure 641. It has a number of fixing means. The bottom 820 has a substantially cylindrical shape around the bottom 820. It has a locking tab oriented in an embodiment. In the preferred embodiment, three tabs 8 25 cooperate with the three holes 810 in the horizontal part 641. Or three or more fixed Tabs 825 can also be provided. The securing tab 825 is attached to the attached member 80. 0 is prevented from rotating.   The top 830 includes a top surface 834, a bottom surface 838, an outer surface 831, a hole 850, and a connection portion. It comprises a substantially cylindrical member 835 with a material 860.   The hole 850 extends from the top surface 834 to the bottom surface 838 and is associated with a work environment element. The projection of the indexing element can be received. The top surface 834 of the hole 850 Preferably, a bevel 830 is provided to allow the protrusion to easily enter.   Upper member 830 includes a channel 842 extending from hole 850 to outer surface 831. have. Preferably, channel 842 is formed through hole 850 by connecting member 860. And extends horizontally in the opposite direction. Channel 842 has an attached index To prevent the element from rotating.   The connecting post member 860 extends outwardly from the top 830 and includes a first portion 865 and a first portion 865. And a second portion 870. The first portion 865 is a support portion of the first portion 830. Extends from the material 800. The second portion 870 includes a top surface 864, a bottom surface 868, and an outer surface. It has a surface 861 and a hole 870. Hole 870 extends from top surface 864 to bottom surface 868. Extending to Preferably, hole 870 is a two-way tile connector 301, three-way Connecting pin from either the file connector 401 or the four-way tile connector 501 Can accept.   Preferably, member 800 is a single piece and includes base structure 643 and link It is made of the same material as the binding members 301, 401, 501. Alternatively, the member 800 It is formed integrally with the base structure 641.   As shown in FIG. 4, the base structure 641 further includes at least four support legs 745. , 747, 749, 751 and the support legs are preferably individual modular Supports the tile 95. Alternatively, support legs support one or more modular tiles Can be configured. For example, a support leg may consist of two or more modular tiles. It can be formed of a single piece located at a common location. In this common location, one Legs support the corners of each modular tile.   The support legs 745, 747, 749, 751 are integral with the base structure 641 Is preferred. Preferably, the upper strut members 645, 647, 649, 651 are They are integral with the support legs 745, 747, 749, 751, respectively. More favorable fruit In the embodiment, the support legs 745, 747, 749, 751 and the upper support member 645 , 647, 649, 651 are integral with the base structure 641. Most preferably , Base structure 641, support legs 745, 747, 749, 751, and upper strut Materials 645, 647, 649, 651 are made as a single piece.   A spacer member 775 is disposed on each of the support legs 745, 747, 749, 751. The spacer member 775 projects laterally from the surface of the leg. Spacer member 77 5 adjacent modular tiles, so that the legs are placed at a certain distance from each other Work with supporting legs. For example, as shown in FIG. The supporting legs of the valves 91, 95; 95, 93 are separated from each other by a predetermined distance by a spacer member 775. They are spaced apart. The spacer members 775 are preferably provided with support legs 745, 7 47 , 749, 751 are made of the same type of material. Alternatively, the spacer member 775 Alternatively, it can be made of a material different from the material fixed to the legs.   Spacer member 775 offers many advantages. For example, in a preferred embodiment, By arranging connected modular tiles at a certain distance from each other, Usually, it can be installed with little effort. Also, the modular tiles that can be installed are: Abut each other at the spacer members, not along the entire edge of the modular tile Cut and / or cut other connected modular tiles as they only touch Occasionally, without removing or removing the modular tiles, Can be taken out of the home. In addition, modular tiles can be Are separated by a fixed distance, so that the modular tile Excellent aesthetic appearance of the home is obtained.   In another embodiment, the support legs 745, 747, 749, 751 are leveling members. 790. The embodiment shown in FIG. 30 is the same as the platform shown in FIG. FIG. 4 is a partial cross-sectional view of a modular tile platform, such as a modular tie. A leveling member disposed on the support leg of the handle. FIG. Modular tiles connected to each other via a tiled tile connector 99 91, 915 are shown. The modular tiles 91 and 95 are on the existing floor 38 Are located in Modular tiles 91, 95 have support legs 795 . Preferably, it has an outer shell 796 and a retaining member 791. Holding member 791 holds the leveling member 790 in the support leg 795.   Preferably, the leveling member 790 is a cushion that absorbs irregularities on the surface of the existing floor 38. It is a slow reaction member. The leveling member 790 is preferably Or flexible (preferably non-elastic) polymers such as thermoplastic polyurethane compounds. Has a sack made of ma. The sack has a very slowly flowing gel Is filled with a viscous material such as Alternatively, the sack changes when pressure is applied. It can also be filled with a granular material which flows and flows. Use in preferred embodiment Shell Chemical Co. There is KRATON commercially available from.   In yet another embodiment, the leveling member has relatively low flow at room temperature, It consists of a thermoplastic material designed to flow when heated. Thermoplastic material , It can be placed in a sack or exposed directly to an existing floor. This alternative embodiment is a third embodiment. This is the same as the embodiment shown in FIG. In this alternative embodiment, the installer has: Immediately before placing the leveling member on the floor, heat the leveling member with a hot air gun, for example. Can be At some point after installation, the floor needs to be leveled again. Then lift, heat and re-install the appropriate modular tile.   As shown in FIGS. 3 and 4, the base structure 641 is located below the horizontal portion 643. And a lower support member 659 extending vertically. Lower strut member 659 is horizontal The lower chamber 79 is provided on the lower surface of the existing floor 32 and the base structure. It is further divided into channels between the structure 641. Preferably, the lower strut member also , Increasing the rigidity and strength of the modular tile 95.   Preferably, the base structure 641 has nine lower strut members 659. The lower strut member 659 is integral with the base structure 641 and under the holes 810, 910. It is arranged and supports each corner member 800 and horizontal part member 900. Better More preferably, the lower strut member 659 and the hole 850 in the corner member cooperate to work Form a hole 860 that can receive a protrusion of the indexing element associated with the environmental element. You. Also, the lower support member 659 and the horizontal part member 900 cooperate to form a working ring. Forming a hole 960 that can receive the protrusion of the indexing element associated with the boundary element .   As shown in FIG. 5, the base structure 641 further includes a corner 6 of the base structure 641. 61, 663, 665, 667, respectively, four connection points 845, 847, 849 and 851. Each connection point is adjacent to hole 810 and hole 860 And is in contact with the modular tile connector 301, 401 or 501. Work to facilitate the connection of adjacent modular tiles.   Preferably, the base structure 641 is made of recycled polypropylene It is an injection molded part. More preferably, the recycled polypropylene is about 30% glass filling. Recycled polypropylene contains flame sedative And the addition of smoke suppressants. Polyps that can be used in the preferred embodiment As an example of propylene, LNP Engineering Plastics, Inc. V- commercially available from There is ERTON. A preferred polypropylene is about 50% long glass fiber composite. You.   In general, polypropylene can mimic the distortion of existing floors, so the base structure It is a preferable material. In another preferred embodiment, the base structure 641 is Full of rigid and modular tiles of gold die-cast and / or base structures Consists of composites that increase physical stability.   Returning to FIG. 4, the top 575 includes a floor cover 601, a cover 621, and an insulating portion. Material 631. In a preferred embodiment, the top 575 further comprises a cover 6 It has a substantially horizontal conductor 708 arranged between the insulating member 21 and the insulating member 631. The shape of cover 621 is essentially the same as the shape of bottom 585. Preferably, The cover 621 is square with corners 622, 624, 626, 628 . Alternatively, the cover 621 can be hexagonal or trapezoidal.   Cover 621 is preferably molded density fiberboard (M). DF). MDF is preferred because it is rigid and relatively lightweight Material. Therefore, the cover 621 can be lifted by hand.   FIG. 6 is a bottom view of the modular tile cover 621 shown in FIG. No. FIG. 7 is a side view of the cover 621 shown in FIG. Cover 621 as a whole Rectangular, having four corners 622, 624, 626, 628 and a top surface   623 and a bottom surface 625. As shown in FIG. 6 and FIG. The bottom surface 625 of the bar 621 is preferably flat and the corners 622, 624, 62 6, 628 are machined. Preferably, the bottom corner is flat or Machined round or convex. In this preferred embodiment, the connected neighbors Modular tile covers have a common place to place cables and other electrical components To form FIG. 3 illustrates this common point of connected adjacent modular tiles. The placed cable is shown. Adjacent modular tiles 93, 95 and The cover 621 of the joule-type tile connector 99 is provided with a cable on which the cable 83 is arranged. A chamber 81 is formed. This structure also provides additional support for modular tiles Form the body. For example, the cover 621 of the tiles 93 and 95 is 5,647,649,651 as well as the modular tile connector 99 Even supported.   4 and 6, the cover 621 has an array of holes 675. You. Hole 675 accepts a projection of the indexing element associated with the work environment element Can be. When the modular tiles 95 are connected to form a platform , Cover holes 675 form an array of equally spaced rows and columns of holes. Hippo -621, more preferably the modular tile 95, is It has sufficient rigidity and stability to support the element. Preferably, each cover 62 1 is provided with nine holes 675 arranged in three rows and three columns. Mo In a preferred embodiment of the joule tile 95, the holes 675 in the cover The protrusion can be indexed in cooperation with both the hole in the member and the hole in the corner member. You.   The lower surface 625 of the cover 621 is provided at the corners 682, 683, 684 of the cover 621. , 685, the respective downwardly directed holes or connection points 692, 69 3, 694, and 695. Preferably, the downward holes 692, 693, 69 4,695 cooperates with the tile connector to connect adjacent modular tiles.   As shown in FIG. 4, the floor cover 601 is disposed on the top surface 623 of the cover 621. Is done. Floor covering 601 can be any type of floor covering commonly known in the art. Yes, but may be, but is not limited to, carpet, tile or other floor covering materials Not something. The floor cover 601 is adhered to the top surface 623 of the cover and stapled. Or any standard method known to those skilled in the art. Or, floor The bar 601 is mounted on the top of the cover so that the dirty or worn cover can be replaced. 623 is detachably attached.   The floor cover 601 is covered so that its edge is flush with the edge of the cover 621. -621. Alternatively, the floor cover 601 is It is attached to the cover 621 so as to have a small protrusion projecting from the edge surface of the bar 621. Be killed. In this preferred embodiment, between two modular tiles to be connected The gap is hidden. This is because the gaps seen between the connected tiles are small. This is because it is buried by the projection.   Floor cover 601 has an array of holes 679. The hole 679 is provided in the floor cover 601. When the floor cover 621 is placed on the top surface 623, the hole 679 of the floor cover The hole 675 is arranged so as to coincide with the hole 675.   The insulating member 631 is attached to the lower surface 625 of the cover 621. Insulating member 631 When the insulating member 631 is attached to the cover 621, the hole 6 79 was aligned with the cover hole 675 and the floor cover hole 679 It has an array of holes 679. In a preferred embodiment, the cover 621 and the insulating member A substantially horizontal conductor 708 is arranged between the first conductor 631 and the first conductor 631.   Modular tiles 95 shown in FIGS. 1 to 4 can be of various types of modules. It is connected to other modular tiles using a tile connector. As aforementioned , The modular tile connector includes a base structure 641 and a corner member 800. It cooperates with connection points 845, 847, 849, 851. Fig. 4 shows the modular type Three preferred embodiments of tile connectors, ie, 4-way connector 301, 3-way A connector 401 and a two-way connector 501 are shown. 8 to 13 These preferred embodiments of the modular tile connector are shown in more detail Have been.   FIG. 8 is an oblique view showing the four-way connector 301 of the modular tile shown in FIG. FIG. Preferably, the four-way connector 301 extends from the central member 311 Four connecting members 303, 305, 307, and 309. Preferably, As shown in FIG. 3, the central member 311 has a convex shape, which is Channel formed by adjacent covers of modular tiles 91, 93 Define 83.   Each connecting member 303, 305, 307, 309 of the four-way connector 301 is a first part. It has a minute part 313 and a second part 315. The first part 313 is a central member 311 , And the second portion 315 extends outward from the central member 311. each The coupling members 303, 305, 307, 309 cooperate to form a common upper surface 317. It has a top surface. Each connecting member 303, 305, 307, 309 also cooperates. To form a common bottom surface 318. Each connecting member 303, 305, Spacers 324 are provided on the bottom surfaces of 307 and 309. Spacer part The material 324 is connected by a predetermined distance above the horizontal part of the modular tile. Cooperates with the bottom of the connected modular tiles so as to be spaced apart. An example For example, as shown in FIG. 5 is the connection of the modular tile connector to the modular tiles 93 and 95. Is positioned above the base portion 585 by a predetermined distance.   Common bottom surface 318 of second portion 315 of each connecting member 303, 305, 307, 309 Is provided with a downward pin 321. Preferably, the pin 321 is Point 84 of the modular tile base structure 641 via the upper support member 800 of FIG. 5,847,849,851. Alternatively, the downward pin 321 is It can be configured to engage a conductor located on a horizontal portion of the joule tile.   On the top surface 317 of the second portion 315 of the connecting members 303, 305, 307, 309 , An upward pin 319 is disposed. The pin 319 is connected via an insulating member 631. And downward holes 692, 693, 694 arranged on the lower surface 625 of the cover 621. It is detachably connected to 695. Preferably, the upward pin 319 is And the conductor 708 disposed between the insulating member 631.   In a preferred embodiment, the upward pin 319 has a first cylindrical conductor 302 disposed thereon. The second cylindrical conductor 304 is disposed on the downward pin 321. Related to Figure 19 As described, the first and second conductors 302, 304 are connected to pins 319, 321. Is electrically connected to the horizontal conductor when the You.   Preferably, the four-way connector 301 is formed as an integral part. More preferably The connector 301 is made of the same material as the base structure 641.   If four modular tiles are placed next to each other, a four-way The four connecting members 303, 305, 307, and 309 of the The detachable tiles are connected. Modular tile platform shape And less than four connecting members based on the number of modular tiles to be connected In some cases, a tile connector having a connecting member is required. For example, two neighbors 2-way connector 5 if only two corners of modular tiles are to be connected 01 is required. FIG. 12 is a perspective view showing the two-way connector 501. First FIG. 3 is a plan view of the two-way connector 501 shown in FIG. 3 modules Tiles are configured so that one corner of only three tiles coincides in common If so, a three-way connector is required. FIG. 10 shows a three-way connector 4 01 FIG. FIG. 11 is a plan view of the three-way connector 401 shown in FIG. FIG. The description and mechanical structure of the two-way connector and the three-way connector are as described above. The description and structure of the four-way connector 301 are the same.   FIG. 18 shows a part of the modular tile platform 39 shown in FIG. FIG. 4 is a plan view showing the modular tile with the top removed. FIG. 18 shows six connected base structures 940, 950, 960, 970, 98 0, 990 and cables 2, 4 are shown. The base structure 940 is located on the existing floor 38. Connected to five adjacent base structures 950, 960, 970, 980, 990 You. The base structure 940 is connected to the base structures 960, 97 via the four-way connector 325. 0 and connected to the base structures 970, 980 via the four-way connector 330. Is tied. The base structure 940 is connected via two-way connectors 425 and 430. They are connected to base structures 950, 990, respectively. All six base structures Are substantially the same as the mechanical properties of the base structure 641 shown in FIG. 1 and described above.   Cable 2 is managed below the horizontal section, while cable 4 is on top of the horizontal section Be managed. Preferably, the power cable 2 and the communication cable 4 are each It is managed in the upper chamber 75 and the lower chamber 79. Power cable 2 comprises three cables 22, 24, 26. Cables 22 and 24 The cable 26 is located in the channel 87 of the Is placed within. The communication cable 4 is connected to the horizontal portion of the connected base structure 940. 943 and is located in channel 85 of upper chamber 75. It is.   FIG. 18 also shows the passage in a chamber 966 formed between adjacent base structures. The illustrated cable 965 is shown. For example, the cable 965 is It passes between the chambers formed between structures 960, 950. This in the chamber One type of cable management method is that the cable 83 is not connected between the modular tiles 93,95. FIG. 3 shows the configuration managed in the chamber 81 more clearly.   Base structure 940 is located on top of horizontal portion 943 of base structure 940. A substantially horizontal conductor 702. Preferably, the conductor 702 has a base structure 943 or riveted. More preferably, conductor 702 is , Five removably mounted horizontal part members 900 and four corner members 80 0 and the horizontal portion 943 of the base structure.   Preferably, conductor 702 has a thickness that is based on the current carrying conditions of the conductor. It is a chrome-plated steel sheet. Preferably, the thickness is 0. 010-0. 050 inches. Conductor 7 02 has essentially the same overall length and width as the overall length and width of the base structure 940 I have. In a preferred embodiment, the electrical and mechanical characteristics of conductor 702 are substantially the same. A flexible second conductor 708 is located under the modular tile cover. Than Preferably, when powered from a power source, the conductors 702, 708 may be modular ties. A circuit 709 for distributing power to the various electrical outlets of the device is formed.   FIG. 20 is a plan view showing a preferred embodiment of the conductors 702 and 708. Guidance The bodies 702 and 708 include a central member 703, an engagement hole 704, and two types of conductor members. That is, it has a corner conductor member 710 and an intermediate conductor member 720. Conductor The members 710, 720 extend from the central portion 703 and are essentially in a horizontal plane. You. The conductor 702 may be located on the horizontal portion 943 of the base structure 940. Is essentially horizontal. Preferably, the conductor engaging hole 704 of the conductor 702 is When the 702 is placed on the base structure 940, the protrusions pass through the engagement holes 704. Engage with a molded protrusion located on base structure 940 to protrude. Protrusion The part secures the conductor 702 in place by riveting or heat steak. It is.   Conductor 708 is essentially horizontal so that it is located under cover 621. Preferably, the conductors 702, 708 have four corner conductor members 710 and four intermediate And a conductor member 720.   Corner member 710 and intermediate member 720 include a first part cooperating with central member 703. A second portion 730 that extends outwardly from the central member 703. Preferably, both corner member 710 and intermediate member 720 are each It has an electrical connection point located on the two conductor portion 730.   Preferably, the second portion 730 of the intermediate member 720 has an electrical connection point 735 I have. Electrical connection point 735 receives the protrusion of the indexing element associated with the work environment element. You can get it. More preferably, the electrical connection point 735 is It is electrically connected to the protruding conductor portion. As shown in FIGS. 20 and 5, When the conductor 702 is placed on a horizontal part of the base structure, five electrical connection points 7 35 cooperate with the five holes 910 in the base structure upper member. FIG. 4, FIG. 5, FIG. As shown in FIGS. 20 and 21, the conductor 708 is disposed on the bottom surface 625 of the cover 621. When placed, five electrical connection points 735 cooperate with five cover holes 625. Preferably, connection point 735 clamps the inserted protrusion and removably attaches it. It has clamping means 738 for attaching.   FIG. 21 is an enlarged view of the second portion 730 of the corner member 710. Second part 7 30 has two connection points: an outer electrical connection point 736 and an inner electrical connection point. It has a connection point 734. Outer connection point 736 and inner connection point 734 It has approximately the same dimensions and structure as point 735. Preferably, connection points 736, 73 4 is a clamping means 7 for clamping and removably attaching the projection to be inserted. 38. Connection point 735 can also receive the protrusion of the indexing element .   As shown in FIGS. 21 and 5, the conductor 702 is connected to the horizontal portion of the base structure 641. When placed on the minute 643, the four inward electrical connections 734 Cooperate with one corner member hole 860. Outer connection point 736 is connected to inner connection point 734 Adjacent and accepts downward pins from modular tile connectors Can be.   FIG. 19 shows two linked modular tabs along the line 19-19 in FIG. It is sectional drawing which shows an ill. As shown in FIG. 19, the electrical tile connector 475 Connect the modular tile 91 and the modular tile 95. Mogi The tiles 95 are arranged on the base structure 641 and the base structure 641. First conductor 702 and a second conductor 702 disposed between the insulating member 631 and the cover 621. And a body 708. The first conductor 702 and the second conductor 708 cooperate to rotate. A path 709 is formed. Modular tiles 91 are modular tiles 95 It has the same structure as. The tile connector 475 is preferably a module The first circuit of the tile 91 is connected to the second circuit of the modular tile 95.   The mechanical properties of the connector 475 are similar to those of the modular tile connector 301 described above.   Same as 401 and 501. Connector 475 includes a top surface 436 and a bottom surface 438. And first and second upward pins 444, 445, and second downward pins 440, 44. And 1. The connector 475 further includes a first conductor 437 and a second conductor 43 9 A first conductor 437 is embedded in the top surface of the connector and has a first upward pin. The pin 444 extends to the second upward pin 445. The second conductor 439 is connected Between the first downward pin 440 and the second downward pin 441. Extending.   The connector 475 is covered to connect to the circuit 709 of the modular tile 95. -621 and the base structure 641. In this position, the downward pin 44 1 is detachably engaged with the hole of the base structure, whereby the second conductor 439 is The connection point of the conductor 702 on the contact structure 641. More preferably, the second Body 439 is. It engages with the connection point 736 of the conductor 702. With this electrical connection, The second conductor 439 has the same potential as the conductor 702.   The cover 621 of the modular tile 95 is mounted on the base structure 643 Then, the upward pin 445 detachably engages with the downward hole 447 of the cover, Thus, the second conductor 708 between the cover 621 and the insulating member 631 is engaged. More preferably, the first conductor 437 is connected to the conductor 708 at the position of the upward pin 445. The connection point 736 is engaged. With this electrical connection, the first conductor 437 is connected to the conductor 708. Become the same potential. Connector 475 engages modular tile 91 in a similar manner. Combine. Obedience. Therefore, the modular tile 95 is connected to the module via the electrical connector 475. Electric power is supplied to the joule tile 91.   Preferably, a module integrally connected to the structure of the modular tile platform Joule tiles form a power grid. Modular tiles Based on the structure of the platform, the power grid is located throughout the platform Or these coupled modular ties with first and second conductors Can be placed only between A preferred power grid has a low voltage C. Power rating I am a child. This low voltage power grid is used for notebook computers, calculators, Or low voltage C. Similar types of tools that require power C. Power Salary I do.   The connector 475 in FIG. 19 is the same as the four-way connector 325, 330 shown in FIG. Or, it is a schematic side view of the two-way connectors 425, 430. Connector 475 is 3 It can also be said that it is a schematic side view of the one-way connector.   In another embodiment, a modular tile without first and second horizontal conductors is , Connected to the conductive modular tile. For example, as shown in FIG. Connect the conductive and non-conductive modular tiles together Can be tied. In this case, according to the method described above, the conductive modular tile Power can be distributed only to Therefore, the electric modular tile connector 475 is used. Power allows for selective distribution of power between modular tiles.   The first conductor 702 and the second conductor 708 cooperate to form a circuit 709. Hitota When energized, the circuit 709 is activated by the various conductor connection points 73 in the modular tile. 4, 735 and 736. Preferably, circuit 709 is a low voltage circuit ( That is, 5 to 50 Vdc) is formed. The conductors 702 and 708 provide the necessary load Make it suitable for handling.   As described above in connection with FIG. 19, the modular tile 91 The tile circuit 709 is powered from an adjacent modular tile 95. Or, The joule tile 91 can receive power from an external power supply 995. Like Alternatively, the external power supply supplies power to the transformer 996, which is connected to the electrical connector 9. 97 is powered. The electrical connector 997 includes first and second conductors, respectively. It has two lead wires 998, 999 connected to 702, 708. Some The transformer 996 can also be connected directly to the conductors 702, 708. Transformer 996 cuts off or steps down the power from the external power supply 995. Transformer 996 or electrical connector 997 is located on top of the modular tile 91 or It is located in one chamber of the modular tile.   FIG. 31 is a modular tile platform according to another embodiment of the present invention.   It is a side view which shows 530. FIG. 32 shows the modular tie shown in FIG. FIG. 17 is a plan view of the platform 530.   In FIG. 31, the ceiling 550, the cable member 535, and the existing floor 38 are attached. A scaled modular tile platform 530 is shown. Ceiling 55 0 has a cable 3 and at least one connection point 553. cable 3 is low voltage power (ie, 115/120 Vac), high voltage power (ie, , 240 Vac) or low voltage DC power (ie, 5-50 Vdc) Or supply. Alternatively, the cable 3 can be a communication cable. ceiling   550 includes at least one connection point 5 for connecting to a cable member 535; 53 are provided.   Preferably, cable member 535 includes a body portion 536 and a base portion 539 have. The main body portion 536 includes a first portion 552 and a second portion 537. , Preferably made from extruded aluminum. The first part 552 is It is detachably engaged with the connection point 553 of the ceiling 550. The second part 537 is a base part 539 is detachably engaged. As shown in FIG. 31 and FIG. 536 is a cable 3 in the main body part 536 from the ceiling 550 to the base part 539. It is preferably hollow with internal dimensions configured to be controlled. More preferred Alternatively, body portion 536 is elliptical.   Preferably, base portion 539 has first and second elements 551, 552 You. Elements 551, 552 form a modular tile platform 530 The base structure 585 of one of the modular tiles. This preferred implementation In the form, a modular tag forming the modular tile platform 530 is provided. The cover from one of the tiles has been removed and the modular tile base structure Is exposed. The base portion 539 may be a modular tile 95 as previously described herein. Interfere with a base structure having substantially the same mechanical properties as the base structure 585 of FIG. Like Alternatively, the base portion 539 may have a base structure in the same manner as the cover is secured. It is detachably fixed to. Therefore, the modular tile platform 530 The commonality of the base structure is maintained throughout. Also attached cable 3 in a connected modular tile just below the platform One can manage.   The cable 3 is managed in a cable member 535 and then in a base part 539, As a result, the attached cable 3 can be accessed from under the base structure 585. it can. Preferably, the attached cable 3 is connected to the upper chamber 75 or lower It is managed within a modular tile 585 of the chamber 85. Therefore, mounting Cables 3 run across the modular tile platform 530 Be managed.   FIG. 24 shows a modular tile platform along the line 24-24 in FIG. 26; FIG. 4 is a side cross-sectional view of a part of the sound boom, showing a protrusion of an indexing element of the sound boom 5; It is. FIG. 24 shows a module for receiving the protrusion 676 of the indexing element 679. A single tile 693 is shown. The modular tile 693 is above the bottom 585 At the top 575. The top 575 of the modular tile is a floor covering 601, a cover 621, a conductor 708, and an insulating member 631. Good In a preferred embodiment, the cover 621 is shown with only three holes. More preferred Alternatively, nine holes 675 are provided in the cover 621.   The protrusion 676 is removably received in the hole 675 of the cover 621. Sudden The protrusion 675 is supported by the upper part member 900. Preferably a hole in the cover 675 indicates that the hole 950 of the horizontal part member and the hole 850 of the corner support member To receive and support the protrusion of indexing element 679 associated with boundary element 680 Cooperate with holes 950,850.   The protruding element 676 has first and second electrodes 690, 692. Hitota When inserted into the indexing hole 675, the protrusion 676 causes the conductor 702 to be in the first indexing position. The second conductor 708 is connected to the electrode 692 of the element and the electrode 690 of the second indexing element. Engages with the modular tile 95 to be connected to. More preferably, indexing The contact electrodes 690 and 692 are associated with the clamping means 738 at the connection point 734 or 735. Combine. When power is supplied to the circuit 709, power is supplied to the inserted indexing element 679.   Preferably, the indexing element 679 may be a work surface leg, panel, storage cabinet, or the like. Or a part of a work environment element such as a screen. Alternatively, the indexing element 679 It is a work environment device that requires electric power such as a lamp, a sound boom, and a work surface. An example For example, the indexing element 679 is a part of the sound boom 5 shown in FIG.   In the modular tile circuit 709 of the modular tile 95 shown in FIG. Are supplied as described above in connection with the modular tile 91 shown in FIG. Can be charged. For example, the circuit 709 may include an external power supply 995, a transformer 996, or an electrical Power can be received from the connector 997. Alternatively, electrical connector leads Lines 998 and 999 are directly connected to the first and second index electrodes 690 and 692, respectively. Connected.   FIGS. 25 (a) through 25 (d) illustrate other aspects of the modular tile indexing element. 3 shows a preferred embodiment. FIG. 25 (a) has at least one leg 766 7 shows a work environment determination element 760 for a work environment element. Preferably, the indexing element 7 60 has a protrusion 762. In this embodiment, the indexing element 760 includes a leg 766 Has an upper portion 764 that can be removably engaged with the bottom surface 765. Or the upper 7 64 has an open top for receiving the bottom surface 765 of the working environment legs 766. Vity 768 can be provided.   FIG. 25 (b) shows that the indexing element 77 has an upper part 772 with a projection 774. 3 shows another embodiment of the configuration. The protrusion 774 is formed by a hole 776 in the bottom of the leg 780. Removably engage with   FIG. 25 (c) shows that the indexing element 782 includes first and second walls 78 extending upward. 5 shows another embodiment of a configuration having an upper portion 784 with 5,786. First And the second walls 785, 786 are aligned at right angles, thereby providing a work environment element. 789 can be engaged with the corner 788 below.   FIG. 25 (d) shows that the indexing element 790 is inserted into the hole 675 of the cover. 14 shows yet another embodiment of the configuration having a projection 792 for the nest. Indexing element 790 Has a shoulder 794 for engaging the top surface of the modular tile.   FIG. 22 is a plan view showing another preferred embodiment of the present invention. In FIG. Does not show a modular tile 895 with an exit box 991. Preferably, power is supplied from the cable 2 directly to the outlet box 991. Some Alternatively, power is preferably supplied to outlet box 991 via transformer 896. It is. Transformer 896 is a step-down transformer that receives power from external power supply 897 Or insulated transformer. Exit box 991 is a modular tile 895 Provides a convenient power connection that is accessible from the top of the You. An example of an exit box 991 that may be used in a preferred embodiment is AMP Model No. commercially available from There is 55-7601. FIG. 23 is a block diagram of the module shown in FIG. It is a side view which shows a joule type tile.   In yet another embodiment, a modular tap is provided by a ready-made wire system 898. 895. In this embodiment, the wire system 898 is Outlet boxes 99 distributed throughout the tiled platform One. As an example of a wire system that can be used in the preferred embodiment, Model No. marketed by AMP There are 556731, 556173-1 or 556794-1. Wa Ear systems can be distributed on existing floors or in modular tile chambers. Can be. Exit box 991 is available on all modular tile platforms Rather, it can be connected to distribute power to individual modular tiles.   FIG. 26 shows a platform working environment incorporating yet another embodiment of the present invention. FIG. Platform work environment 20 is a modular tile Platform or island 30 and modular tile platform The various work environment elements arranged on 30 and the cables 2, 4 for feeding the environment 20 Consists of   Platform 30 has a plurality of modular tiles 95 connected thereto. You. As shown in FIG. 26, the modular tile platform 30 has a matrix It has 25 modular tiles 95 connected in a box configuration. 27th The figure is a plan view of the platform working environment 20 shown in FIG. Fig. 28 Is a side view showing the platform working environment 20 shown in FIGS. 26 and 27; It is.   As shown in FIGS. 26 and 27, the platform 30 has a new structure. It is installed on the existing floor 10, which is the base floor. In these installations, modular The tiles 95 correspond to specific zones and work areas defined by the building structure. Linked together to form a zone. Alternatively, the platform 30 is Can be installed on top of a raised floor panel system. In these modified applications, Since there is no need to disassemble or modify the existing floor 10, the installation of the platform 30 is simplified. Be singulated. As shown in FIGS. 26 and 28, the modular tile 95 It is exposed along these edges. Thus, assembled modular tiles Platform 30 is preferably exposed along its edge.   The modular tiles 95 forming the platform 30 are It is connected to various configurations based on zero systematic conditions and surface area conditions. For example 26 and 27, the modular tiles 11, 13 , 15, 17 are the corners of each of the four tiles 11, 13, 15, and 17, respectively. Are arranged adjacent to each other so as to coincide at a common point 19. For more information, see Thailand Corner 11 of tile 11, corner 23 of tile 13, corner 25 of tile 15 and The corners 27 of the tile 17 coincide with each other at a common point 19. These four tile arrangement The platform is mounted on the entire platform 30 until the required work environment surface area is formed. Duplicated across.   Two adjacent modular tiles 95 are located at the outer boundary of platform 30. Where each tile has a respective corner that matches in common. For example, the outer corner 31 of the modular tile 11 and the modular tile 1 The three outer corners 33 coincide with each other at the common point 29. These two tiles At the point of coincidence, these tiles are placed in two as shown in FIGS. 12 and 13. Connected via the one-way connector. Or, only three modular tiles 95 Tiles meet at a common point and form an "L" shape. These three tags Where the tiles match, these tiles are as shown in FIGS. 10 and 11. It is connected via a three-way connector. The composite work environment 100 shown in FIG. A modular tile platform incorporating an L-shape is provided.   FIG. 29 illustrates a combined working environment 100 incorporating another preferred embodiment of the present invention. FIG. The complex work environment 100 forms the entire floor of a building. Alternatively, environment 100 can be configured to form only a portion of the entire floor.   As shown in the complex work environment 100 of FIG. It is not necessary to cover with the tiles 95. On the contrary, a plurality of tiles 95 Platform 40, 7 suitable for the work environment supporting employees 0, 80, 90 are installed in a unique form.   The combined working environment 100 includes four isolated platform environments 40, 70, 80, 90, all of which have a unique shape. Environments 40 and 70 are Like the platform shown in FIGS. 26, 27 and 28, It is a platform of the form type. Platform environment 40 is 4x5 matrix It has 20 modular tiles 95 arranged in a single-layered manner. platform Environment 70 consists of 40 modular tiles organized in a 5x8 rectangular matrix 95.   Platforms 80, 90 use a three-tile approach to form an L-shape. You. For example, in the work environment 80, the connected modular tiles 56, 57, 5 8 and modular tiles 48, 49, 50 form a 3-tile L shape . Similarly, in the work environment 90, the connected modular tiles 62, 63, 64 Form an L shape. Any of the working platforms 40, 70, 80, 90 However, the width or length can be increased based on changing working environment conditions.   Alternatively, the platform environment 40, 70, 80, 90 may be a common wall-to-wall configuration (Not shown). In this configuration, the length of a single platform and the By expanding the width, the entire existing floor will be covered. Alternatively, existing modular platforms To enlarge all four modular platforms All of the systems 40, 70, 80, 90 can be combined into one working environment.   The modular tile platform shown in FIGS. Consists of modular tiles with bars. FIG. 36 shows a modular tile camera. Another example of a modular tile platform with a bar having a hexagonal configuration An embodiment will be described. FIG. 37 shows a modular tile cover having a rectangular shape Figure 4 illustrates another embodiment of a modular tile platform in a configuration. Preferred practice In form, the modular tiles are such that the four tiles match in common. It is arranged adjacent to. In another configuration shown in FIG. 38, a module having a rectangular shape is used. The tiled tile covers are staggered in an offset manner and the two Only two corners of the tile are configured to coincide in common.   Returning to FIGS. 26 to 28, the work environment 20 includes the work surface 3 and the Boom 5, light 7, chair 9, chair bump 8, It has a number of working environment elements composed of the rest 13 and the movable wall 6. other Possible elements include a water cooler, fan, noise canceller, and convenient laptop. Power supply, storage equipment, podium (podium), chairs, lighting, surrounding work lighting and And self-standing panels with integrated lighting. Preferably, these elements are shown and described above. Within a modular tile platform using preferred preferred indexing means Is done. These working elements are preferably detachably mounted on modular tiles. At least one index with a projection (not shown in FIG. 28) to be attached With elements.   To support these elements and other related electrical components, power, data, voice, and Other equipment can be located and distributed throughout the modular tiles and thus on the platform Need to be done. The cables 2, 4 that feed the work platform are Connected to the modular environment 20 in some manner.   FIG. 29 shows the extension to the modular platforms 40, 70, 80, 90. And various configurations for performing wiring from them. Cable 2 is a standard Provides low voltage power (ie, 115/120 Vac). In other embodiments, , The cable 2 supplies high voltage power (for example, 240 Vac), and the work environment 40,   70, 80, 90 have transformer means for transforming the high voltage. Alternatively, The bull 2 supplies low-voltage DC power (that is, 5 to 50 Vdc). Linked Under or between modular tiles for power, communication and other power Power components (ie, AC / DC transformers) are installed.   Work environment equipment can be from existing equipment in the work environment or from adjacent work environment zones. Powered or powered to the working platform in one of many different ways. preferable In embodiments, the modular platform receives power from an external power source. An example For example, as shown in FIG. 29, the work environment 70 is 1 through the power. The external power supply 61 is connected to a load center, a control Or a branch circuit access point in a work environment building or a remote electrical room. (I.e., connection points). Preferably, via cable 51 The power supplied is 115/120 VAC.   In another embodiment, the work environment 70 includes input power supplied by an external power source 61. And a transformer means 66 for isolating. Alternatively, the transformer means 66 comprises an input power Can be configured to step down. The transformer means 66 is a modular It can be placed below, above, or within the tile forming the platform 70. Also, The platform can receive power from other modular platforms. Wear. For example, the work environment 80 receives power from the work environment 70 via the cable 53. Can receive.   A communication or data cable 4 is installed on each work platform. This Cable 4 transmits communication information to the work platform, Computer networks (ie, Internet and intranet facilities) ), Necessary for the phone line and modem to work. One communication cable 2 From one work environment to another. There are various cable configurations Environment is connected to each other by a network (for example, LAN, Internet, Preferred for intranet, e-mail).   In a preferred embodiment, the communication or data information originates from an external communication source 67. Are transmitted to the work platform 80 via the cable 41. This information is Transmitted from the platform to the work environment 80 via the data cable 41, It can be retransmitted to other working platforms. In the combined environment 100, the cable 41 Communication and data information transmitted over the communication and data line cable Via 43, 45, 47 to the working platforms 70, 90, 40 respectively Sent. Alternatively, the work platforms 40, 70, 90 are separate external communication sources. They can also receive their communication information.   FIG. 33 shows still another embodiment of the present invention. FIG. 33 shows the connected multiple Number of modular tiles 95 and ramps of modular tile platform A modular tile platform 360 with 370 is shown. Ramp 370 is a modular tile platform work environment 365 that is generally long The modules in the modular tile platform 360 maintain the square shape. Connected to the tile 95. Preferably, ramp 370 is generally long. The length of four modular tiles connected as a rectangular platform and It has the same length and width as the width. Accordingly, ramp 370 is shown in FIG. As such, it is connected to two modular tiles 95. The ramp 370 is two-way Through a modular tile connector and a three-way modular tile connector, It is connected to two modular tiles.   FIG. 34 shows another implementation of the modular tile platform shown in FIG. The form is shown. FIG. 34 shows a modular tile 95 and a modular tile Modular tile platform 350 consisting of platform ramp 370 It is shown. The ramp 370 has a two-way modular tile connector and a three-way Connected to two modular tiles 95 via a modular tile connector ing. In this embodiment, ramp 370 is a generally rectangular modular Along the outer edge 357 of the tile platform 350, It is connected to.   FIG. 35 is an assembled modular view taken along line 34-34 shown in FIG. 34; FIG. 14 is a side cross-sectional view of a tile platform ramp 370. FIG. 35 shows the module A ramp 370 located on the existing floor 38 adjacent to the tiles 95 is shown. You. The ramp 370 is connected to the modular tiles via the modular tile connector 378. Connected to the file 95. Preferably, ramp 370 is at the same height as tile 95 It is. The ramp 373 has a slope 371 and is supported by a plurality of ribs 373. Have been. The slope 371 of the ramp is preferably covered with a floor cover 372. Floor The bar 372 has a raised portion 373 that prevents the bar from sliding along an inclined surface. Some Alternatively, ramp 370 can be made of die cast aluminum alloy. Inclination The ramp 370 is a modular tile platform for wheeled carts, wheelchairs and chairs. Facilitate access to home platforms.   While the present invention has been described with reference to preferred embodiments, those skilled in the art will recognize the invention. Be able to make changes in shape and detail without departing from the spirit and scope of the light Will be understood. In any case, the above detailed description is merely illustrative and not restrictive. The scope of the present invention is not intended to It will be understood that equivalents are included.

────────────────────────────────────────────────── ─── Continuation of front page    (81) Designated countries EP (AT, BE, CH, DE, DK, ES, FI, FR, GB, GR, IE, IT, L U, MC, NL, PT, SE), OA (BF, BJ, CF) , CG, CI, CM, GA, GN, ML, MR, NE, SN, TD, TG), AP (GH, KE, LS, MW, S D, SZ, UG, ZW), EA (AM, AZ, BY, KG) , KZ, MD, RU, TJ, TM), AL, AM, AT , AU, AZ, BA, BB, BG, BR, BY, CA, CH, CN, CU, CZ, DE, DK, EE, ES, F I, GB, GE, GH, HU, ID, IL, IS, JP , KE, KG, KP, KR, KZ, LC, LK, LR, LS, LT, LU, LV, MD, MG, MK, MN, M W, MX, NO, NZ, PL, PT, RO, RU, SD , SE, SG, SI, SK, SL, TJ, TM, TR, TT, UA, UG, US, UZ, VN, YU, ZW

Claims (1)

[Claims] 1. A generally rectangular base structure with a nearly horizontal part,     Four support legs disposed substantially at the corners of the base structure and engaging the existing floor;   The support leg supports the horizontal portion at a predetermined distance above the existing floor.   Which allows the cable to be received between the existing floor and the horizontal   Forming a lower chamber,     Four strut members extending above the horizontal portion,     It is supported by a support member at a certain distance above the horizontal part,   Form upper chamber that can accept cables between more horizontal parts   And a cover installed on the top surface of the existing floor, further comprising:   Type tar. 2. The lower chamber has two channels, with a cable in each channel   Claim 1 characterized by the fact that is adapted to be accepted   Modular tiles. 3. The upper chamber has two channels, with a cable in each channel   Claim 1 characterized by the fact that is adapted to be accepted   Modular tiles. 4. 2. The method of claim 1 wherein said cover comprises a floor covering material.   A modular tile according to claim 1. 5. The said floor covering material is a carpet, The Claim 4 characterized by the above-mentioned.   Modular tile as described. 6. The base structure has four connection points, which are placed on top of an existing floor and each adjacent   The four connection points, which are arranged so that the corners of the base structure coincide at a common point, are   Can be detachably attached to each other via a joule tile connector   A modular tile according to claim 1, characterized in that: 7. The four connection points are arranged at four corners of the base structure.   A modular tile according to claim 6, characterized in that: 8. The base structure further includes a spacer member disposed on one support leg,   The spacer members allow the supporting legs on adjacent modular tiles to be separated from each other by a predetermined distance.   Characterized in that they project laterally from the support legs so as to be spaced apart   A modular tile according to claim 1. 9. The spacer member is integral with a base structure.   9. A modular tile according to clause 8. Ten. The base structure is further adapted to allow cables to pass between upper and lower chambers.   2. The method according to claim 1, further comprising a hole passing through a substantially horizontal portion.   A modular tile according to claim 1. 11． Spaced apart between the support legs of the base structure, whereby the cable   Forming at least two channels for placing   The modular tile of claim 1. 12． The lower strut member engages the existing floor, thereby moving the horizontal portion above the existing floor.   12. The support according to claim 11, wherein the support is provided at a constant distance from the vehicle.   A modular tile according to claim 1. 13. The lower strut member is integral with a base structure.   13. A modular tile according to clause 12. 14. 2. The structure of claim 1, wherein said base structure is made as a single piece.   A modular tile according to claim 1. 15． 2. The method according to claim 1, wherein said support leg is integral with a base structure.   Modular tile as described. 16． The upper support member is integral with a base structure.   The modular tile of claim 1. 17． First and second generally horizontal, electrically insulated and vertically spaced   The conductor further comprises a conductor, wherein the first and second conductors are seeded in the modular tile.   2. The module according to claim 1, wherein power is distributed to various points.   Style tile. 18. It also has four electrical connection points, so that on adjacent modular tiles   The first and second conductors are electrically connected to provide power between the plurality of modular tiles.   18. The modular tile of claim 17, wherein the tile is distributed.   . 19. Further having a plurality of electrical exit points, thereby allowing use at each electrical exit point   18. The module according to claim 17, wherein the user has access to the power.   Wool tile. 20. Leveling the support legs to change shape to match the surface shape of the existing floor   2. The modular module according to claim 1, further comprising a member.   Il. twenty one. The leveling member is an automatic leveling device having a sack of viscous incompressible liquid.   21. The modular type according to claim 20, which is a ring member.   tile. twenty two. The leveling member flows when subjected to a temperature higher than room temperature, and   That the component is made of a thermoplastic material that allows it to match the irregularities of the existing floor   21. The modular tile of claim 20, characterized by the features. twenty three. In the base structure, the cable arranged on the ceiling runs from the ceiling to the base structure.   Receiving the base of the cable member so that it is managed within the cable member   A modular tile according to claim 1, characterized in that: twenty four. At least four generally rectangular modular tiles;   Tiles are arranged so that the corners of each modular tile match in common.   And each modular tile is     A generally rectangular base structure with a nearly horizontal part,     Connection points of each corner,     And four supporting legs arranged substantially at the corners of the base structure, the supporting legs being already provided.   Engages the existing floor, thereby receiving the cable between the existing floor and the horizontal section.   Form a lower chamber that can     Four upper strut members extending above the horizontal base structure;     Supported by the upper strut member, thereby providing an upper chamber between the upper portion and the horizontal portion.   A substantially rectangular cover forming the cable, the cover receiving the cable therein.   You can put     Engage adjacent to the connection point of modular tiles to remove and attach modular tiles   Further comprising a modular tile connector operatively connected.   A modular tile system installed on top of existing floors. twenty five. The modular tile connector has a central member and extends from the central member.   25. The method according to claim 24, further comprising four connecting members.   Modular tile system. 26. Each of the connecting members comprises a pin, and each connecting point can receive the pin.   26. The modular tile of claim 25, wherein the tile is a hole.   Stem. 27. Each of the connecting members includes an upward pin and a downward pin, and each connecting point is downward.   A hole for receiving a pin, said cover having four downward holes   Wherein each downward hole is capable of receiving an upward pin.   25. A modular tile system according to claim 24. 28. The central member routes cables between common points of the modular tiles to be connected.   Claims having a convex shape that allows the passage     26. A modular tile system according to clause 25. 29. The modular tile connector is made as a single unit   26. The modular tile system of claim 25. 30. The base structure further includes a spacer member disposed on one support leg,   The spacer members allow the supporting legs on adjacent modular tiles to be separated from each other by a predetermined distance.   Characterized in that they project laterally from the support legs so as to be spaced apart   A modular tile system according to claim 24. 31. At least one modular tile is a cable placed on the ceiling   Cable members to be managed within the cable member from to the modular tile   25. The module according to claim 24, wherein the base part receives a base part of the body.   Wool tile system. 32. A modular tile platform connected to one of the modular tiles   25. The module according to claim 24, further comprising a ramp of the arm.   Wool tile system. 33. A modular tile system to be installed on top of an existing floor,   Modular tile system where the working environment is formed on the tile type tile system   In the above, the working environment includes a panel, a screen, a work surface, and a storage cabinet.   And a modular tie comprising an element selected from the group consisting of   Systems are placed next to each other on the existing floor to create a work environment platform   A plurality of modular tiles to be formed, each modular tile having a bottom and   And a top having an array of holes, the array of holes being associated with each modular tile.   Holes are almost identical, and holes are associated with at least some of the work environment elements.   Modular tie characterized in that it can accept the projection of the element   System. 34. The array of holes in each of the modular tiles is equally spaced on the work environment platform   Characterized by forming an array of columns and rows of   A modular tile system according to claim 33. 35. The modular tile has nine rows of three rows and three columns   35. The modular tile system of claim 34, wherein: 36. Each of the modular tiles,     A generally rectangular base structure with a nearly horizontal part,     Four support legs disposed substantially at the corners of the base structure and engaging the existing floor;   The support leg supports the horizontal portion at a predetermined distance above the existing floor.   Which allows the cable to be received between the existing floor and the horizontal   Forming a lower chamber,     Four strut members extending above the horizontal portion,     A top member, the top member being a distance above the horizontal member at a fixed distance.   , Thereby receiving the cable between the horizontal part and the top   34. The method according to claim 33, wherein an upper chamber is formed.   A modular tile system as described. 37. The space between the base structure and the floor must be   A plurality of lower strut members divided into one chamber.   35. A modular tile system according to claim 33. 38. The lower strut member is integral with a base structure.   Clause 37. The modular tile system of clause 37. 39. The upper support member is integral with a base structure.   Clause 36. The modular tile system according to clause 36. 40. The modular tile has means for connecting the modular tiles   37. The modular tile system of claim 36. 41. At least one bottom of the modular tile is provided with a casing disposed in a ceiling.   Cables are now managed within the cable components from the ceiling to the modular tiles   36. The apparatus according to claim 36, further comprising receiving a base portion of the cable member.   A modular tile system as described in paragraph. 42. The modular tile platform ramp is connected to two rectangular tiles   37. The modular tile system according to claim 36, wherein   Stem. 43. Multiple that are placed side by side on the existing floor to form a work environment platform   Modular tiles, each modular tile having a bottom and a top   The top has an array of holes, the array of holes being substantially the same in each modular tile.   One,     Group consisting of panels, screens, work surfaces, storage cabinets and lamps   Further comprising a plurality of work environment elements selected from     At least some work environment elements have associated with them a few   At least one indexing element, said hole capable of receiving a protrusion,     At least some of the work environment elements are arranged on the work environment platform   A work environment forming system characterized by being indexed to 44. The indexing element removably engages at least some working environment elements   44. The work environment forming system according to claim 43, wherein: 45. At least some work environment elements are supported on the legs and at least some   The dispensing element has an upper portion that can be removably engaged with the bottom surface of the leg.   The working environment forming system according to claim 44, wherein 46. The upper portion has an upper open cavity for receiving a bottom surface of the leg.   The working environment forming system according to claim 45, wherein: 47. The upper portion has a protrusion that detachably engages with a hole in the bottom surface of the leg.   46. The work environment forming system according to claim 45, wherein: 48. At least some indexing elements have first and second walls extending upward.   Having a top, the first and second walls are aligned at right angles, thereby providing a work environment element   44. The device according to claim 43, wherein the device can be detachably engaged with the lower corner.   Work environment formation system. 49. The indexing element is permanently attached to at least some working environment elements   44. The work environment forming system according to claim 43, wherein: 50. A screen as the work environment element, the screen being supported on a leg;   , At least one leg ends in an indexing element, which is inserted into the hole.   A projection that engages the top of the modular tile and a shoulder that stabilizes the leg   The working environment forming system according to claim 43, wherein   Tem. 51. The hole arrangement for each modular tile should be equally spaced on the work environment platform.   Characterized by forming an array of columns and rows of   The work environment forming system according to claim 43. 52. The modular tile has nine rows of three rows and three columns   44. The work environment forming system according to claim 43, wherein: 53. At least one modular tile is used to ensure that the cables placed in the ceiling are   Cables are managed within the cable member from wells to modular tiles.   44. The device according to claim 43, wherein the base portion of the member is received.   Work environment formation system. 54. One modular tile has a modular tile platform ramp   The working environment forming system according to claim 43, wherein the working environment forming system is connected.   Stem. 55. Each of the modular tiles,     A generally rectangular bottom with a nearly horizontal portion,     Four supporting legs disposed substantially at the corner of the bottom and engaging the existing floor.   The support legs support the horizontal portion at a predetermined distance above the existing floor,   This allows the lower channel to accept cables between the existing floor and the horizontal   Form a chamber,     Four strut members extending above the horizontal portion,     A top member, the top member being a distance above the horizontal member at a fixed distance.   , Thereby receiving the cable between the horizontal part and the top   Claim 43 wherein an upper chamber is formed which can be   The working environment forming system according to the above. 56. The space between the bottom and the floor is provided with a lower channel capable of receiving cables.   Claims further comprising a plurality of lower support members divided into members.   Item 55. The work environment forming system according to Item 55. 57. The lower strut member is integral with a base portion.   56. The work environment forming system according to item 56. 58. 55. The method according to claim 55, wherein the upper support member is integral with the bottom.   The working environment forming system according to 1. 59. The means for connecting the modular tiles further comprises:   Item 55. The work environment forming system according to Item 55. 60. A first modular floor tile with substantially horizontal first and second conductors;   The first and second conductors are electrically insulated and vertically spaced.   ,     A second modular floor tile with substantially horizontal first and second conductors;   The first and second conductors are electrically insulated and vertically spaced.   ,     Distribute power from one modular tile to another modular floor tile   Connecting first and second conductors of first and second modular floor tiles   Distributing power to the working environment, further comprising an electrical connector for   system. 61. The first modular tile has a substantially rectangular base structure, and the base structure has a substantially rectangular base structure.   Construction     Almost horizontal part,     Connection points of each corner,     Four support legs arranged substantially at the corners of the base structure and engaging with the existing floor;     Four upper strut support members extending above the horizontal portion;     It is supported at a certain distance above the horizontal portion by the upper support member,   To form an upper chamber between the horizontal part that can receive the cable   61. The work environment according to claim 60, further comprising:   System that distributes power to 62. Further having a plurality of electrical exit points, thereby allowing use at each electrical exit point   63. The work of claim 61, wherein the person has access to the power.   A system that distributes power to the environment. 63. Power is distributed from the first modular tile to the second modular tile,   The user has access to power at various electrical exit points in the second modular tile.   63. The work environment according to claim 61, wherein   Dispensing system. 64. The first and second conductors form a circuit, and the first and second conductors are further electrically connected.   Having connection points, wherein said circuit distributes power to these connection points   A system for distributing power to a work environment according to claim 61. 65. The electrical connection point is capable of receiving a protrusion of a work environment element;   The system for distributing power to a work environment according to claim 64, characterized in that:   . 66. A mechanical link between the first and second modular tiles.   The third claim, further comprising a third modular tile to be tied.   61. A system for distributing power to a work environment according to item 60. 67. The power from the first modular tile is one of the third modular tiles   Distributed to a second modular tile via a cable passing through the chamber   A system for distributing power to a work environment according to claim 66, characterized in that:   M 68. Power from the first modular tile is adjacent to a third modular tile   Distribution to the second modular tile via a cable passed through   67. A system for distributing power to a work environment as recited in claim 66, wherein 69. Converting AC power to DC power and the first and second of the first modular tile   The invention further comprises an AC / DC transformer connectable to the conductor.   A system for distributing power to a work environment according to claim 60. 70. The AC / DC transformer is mounted in a first modular tile.   70. A system for distributing power to a work environment according to claim 69. 71. At least one modular tile is used to ensure that the cables placed in the ceiling are   Cables are managed within the cable member from wells to modular tiles.   61. The method of claim 60, wherein the base portion of the member is received.   A system that distributes power to the work environment. 72. One modular tile has a modular tile platform ramp   61. The work environment according to claim 60, wherein the work environment is   Distribute system. 73. An electrical connector for receiving power from an external power source;     A first module having a circuit formed by substantially horizontal first and second conductors   A first circuit receiving power from an electrical connector;     A second module having a circuit formed by substantially horizontal first and second conductors   And tiles     In order for the power received by the first circuit to be supplied to the circuit of the second tile,   Modular tile for electrically connecting the circuit of one tile and the circuit of the second tile   A connector for distributing power to the entire work environment, further comprising a connector.   Stem. 74. The first modular tile further has a plurality of electrical exit points, whereby   A contractor characterized in that the user has access to electricity at each electrical exit point.   74. A system for distributing power throughout a work environment according to claim 73. 75. Further comprising AC / DC transformer means capable of converting AC power to DC power;   The means for connecting can be connected to an electrical connector for receiving power.   74. A system for distributing power throughout a work environment according to clause 73. 76. In the first modular tile, a cable arranged in the ceiling has a cable extending from the ceiling.   The cable member base is managed so that the joule tiles are managed within the cable member.   74. A work environment according to claim 73, wherein said work environment receives a source part.   A system that distributes power to the whole. 77. One modular tile has a modular tile platform ramp   74. The entire work environment according to claim 73, wherein the work environment is connected.   System that distributes power to 78. A plurality of connecting members,     A first conductor disposed in each connection member;     Each connection is such that the first conductor and the second conductor form a circuit that conducts power.   A second conductor disposed in the material,     Means for mechanically connecting the modular tiles arranged on each connection member.   Has a circuit that powers from one modular tile to another   A number of modular tiles are connected adjacent to each other to   One modular tile and another modular tile   Mechanically linked and from one modular tile to another   A modular tile connector that conducts power. 79. The plurality of connecting members extend from a common hub.   Clause 78. The modular tile connector of clause 78. 80. The common hub has a convex shape and has a cable between the modular tiles to be connected.   80. The module according to claim 79, wherein the module can be passed through.   Wall tile connector. 81. The modular tile connector has two connecting members.   79. The modular tile connector of claim 78. 82. The modular tile connector has three connecting members.   79. The modular tile connector of claim 78. 83. The modular tile connector has four connecting members.   79. The modular tile connector of claim 78. 84. A work environment element with an indexing element with a projection that conducts electricity;     A modular tile having an index hole for receiving the protrusion;     An electrical connector for receiving power from a power source and connected to the determined protrusion;   An electrical connector distributes power to the protrusions and supplies power to the work environment element   A system for distributing power to modular tiles. 85. The power supply may be AC / DC transformer means for converting AC power to DC power.   A system according to claim 84, characterized in that: 86. The power supply is an insulation type transformer for insulating power to be distributed.   84. The system of claim 84.