JP2010106455A - Floor panel system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a floor panel system capable of maintaining the state of properly connecting transmission lines arranged in adjacent floor panels, respectively. <P>SOLUTION: The transmission line 6 which is provided in the floor panel 4 is externally pulled out of a pull-out hole 42c which is formed in the lateral portion 42a of the undersurface member 42 of the floor panel 4; and a male-side connector 10a is provided at the end of the external pull-out portion 6a. A female-side connector 10b corresponding to the male-side connector 10a is fixed to a lateral portion 42b of the undersurface member 42. In a state that the floor panel 4 is installed and the male-side and female-side connectors 10a and 10b are connected to each other, the external pull-out portion 6a connected to the male-side connector 10a is sagged and bent. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a floor panel system.

  As a floor panel that is laid out on a foundation floor via a support in an office, etc., conventionally, a power line is routed inside the floor panel, and the power lines are electrically connected between adjacent floor panels. A panel is known (for example, Patent Document 1).

In the floor panel disclosed in Patent Document 1, an outlet is provided on one end face of the floor panel, a plug is provided on the other end face so that it can be protruded and retracted, and after the floor panel is disposed, the plug is inserted into the outlet of the adjacent floor panel. It has become.
Japanese Utility Model Publication No. 4-134127

  However, in the configuration of Patent Document 1, since the plug and the outlet are fixed to the end surface of the floor panel, when an excessive load is applied to the boundary between adjacent floor panels, the plug and the outlet There is a possibility that a force is applied to the joint portion and a good connection state between the plug and the outlet is damaged.

  Then, an object of this invention is to obtain the floor panel system which makes it easy to maintain the better connection state of the transmission line respectively routed in the adjacent floor panel.

  According to the first aspect of the present invention, a plurality of substantially rectangular floor panels are laid down and arranged on the foundation floor, and the transmission lines routed in the floor panels adjacent to each other are connected to the connectors of the respective transmission lines. In a floor panel system that is electrically connected by coupling each other, the connector is provided in an external lead portion of at least one of two transmission lines that are electrically connected to each other, and the external lead The connectors are connected to each other with the portions bent.

  In the invention of claim 2, in a state where the connectors are coupled to each other, one connector of two floor panels adjacent to each other is arranged on the other side from the boundary of the floor panels. Features.

  In the invention of claim 3, a plurality of substantially rectangular floor panels are laid down and arranged on the foundation floor, and the transmission lines respectively routed in the floor panels adjacent to each other are electrically connected to each other. In the above floor panel system, a relay transmission line and a connector of the relay transmission line are provided on the support column, and a connector provided at an externally drawn portion of the transmission line routed in the floor panel and a connector of the relay transmission line Are combined in a state where the external lead portion is bent.

  In the invention of claim 4, the connector is attached to the main body of the floor panel so as to be slidable between a storage position and a coupling position, and an operation portion is provided on the upper surface of the floor panel to slide the connector. It is characterized by that.

  The invention of claim 5 is characterized in that the connector is a magnet connector.

  The invention according to claim 6 is a floor panel used in the floor panel system.

  According to the first aspect of the present invention, even when a relative displacement occurs between floor panels adjacent to each other due to an excessive load acting on the floor panel, the external displacement is bent in advance. Since it can absorb in a drawer part, it becomes easy to maintain the connection state of a connector better.

  According to invention of Claim 2, when one connector of two floor panels couple | bonds with the other side from the boundary of those floor panels, when an excessive load acts on a floor panel, the edge part of a floor panel Contact with the connector can be suppressed, and the connection state of the connector can be more easily maintained.

  According to the invention of claim 3, even when a relative displacement is generated between the floor panel and the support column due to an excessive load acting on the floor panel, the external portion in which the relative displacement is bent in advance. Since it can absorb in a drawer part, it becomes easy to maintain the connection state of a connector better.

  According to the invention of claim 4, the connector can be more easily coupled after the floor panel is arranged by providing the operation portion.

  According to the invention of claim 5, by using the magnet connector, the connector can be more easily coupled.

  According to the invention of claim 6, by using the floor panel, it is possible to construct a floor panel system that can easily maintain the connection state of the connector.

  (First Embodiment) A first embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a perspective view schematically showing a floor panel system according to the present embodiment.

  As shown in FIG. 1, the floor panel system 1 of the present embodiment includes a plurality of support columns 3 and a plurality of floor panels 4. The support column 3 is disposed on the foundation floor 2 and supports the floor panel 4. The floor panel 4 is formed in a substantially rectangular shape, and is supported by the support column 3 and spread on the foundation floor 2 in a grid pattern. Further, the floor panel 4 has a structure in which the four corners are supported by the columns 3, and the corners of the plurality of floor panels 4 are supported by the same column 3 when the floor panels 4 are spread. The floor panel system 1 and the foundation floor 2 form a double floor having a space 5 between the floor panel 4 and the foundation floor 2.

  The floor panel 4 is provided with a transmission line 6 that is a transmission medium for transmitting a transmission. Here, for convenience, the transmission line 6 is simply indicated by a line in the drawing. The transmission line 6 is provided on the floor panel 4 so as to connect the center portions of opposite sides of the floor panel 4 and has a cross shape as a whole. The transmission lines 6 of the adjacent floor panels 4 are connected to each other via the connector 10 (see FIG. 3) of the floor panel 4 without the support 3, and the floor panel system is connected by the transmission line 6 and the connector 10. A transmission line 7 is formed in 1. The transmission line management apparatus 8 and the outlet 9 can be connected to the transmission line 7, and the electrical equipment 15 connected to the outlet 9 and the transmission thing management apparatus 8 are connected via the transmission line 7. It has become.

  The transmission thing which the floor panel system 1 transmits by the transmission line 7 is at least one of electric power and an information signal. That is, the transmission is power only, information signal only, or both power and information signal. The floor panel system 1 functions as a power supply system when transmitting power, functions as an information transmission system when transmitting information signals, and transmits both power and information signals. It functions as a power / information complex system.

  The power is alternating current or direct current, and the information signal is an analog signal or a digital signal. Specifically, the information signal is a LAN signal, an xDSL signal, a television receiver signal, a telephone signal, an electric device control signal, etc., and these signals are constituted by an electric signal or an optical signal. . The information signal is transmitted separately or integrally with the power. When the information signal is transmitted integrally with the power, alternating current or direct current on which the information signal is superimposed is used.

  The transmission management device 8 is a power supply device capable of supplying power, a server capable of transmitting / receiving information, or a composite device having functions of both the power supply device and the server. In FIG. 1, a power supply device is illustrated as the transmission management device 8.

  The transmission line 6 is a power line capable of transmitting power when the transmission is power, and a metal line or an optical communication line capable of transmitting the information signal when the transmission is an information signal. The information communication line is used. When the transmission is both electric power and an information signal, the transmission line 6 is configured by two systems of a power supply line and an information communication line, or is configured by one system of only the power supply line. The In the case where the transmission line 6 is composed of only one power supply line, alternating current or direct current on which an information signal is superimposed is transmitted by this power supply line.

  When the transmission is electric power, the outlet 9 is an outlet for power such as an AC outlet, a DC outlet, or a dedicated terminal for a specific electric device. In FIG. 1, an AC outlet is illustrated as the outlet 9. The AC outlet and the DC outlet can be connected to a power outlet, a table tap, and various electric devices. The floor outlet for power and the table tap are used for AC, DC, or both AC / DC depending on the transmitted power.

  Further, when the transmission is an information signal, the outlet 9 is an information outlet such as an information outlet or a dedicated terminal for a specific electric device. Specifically, the information outlet is a LAN outlet, a television receiver outlet, a telephone outlet, an optical connector, a composite outlet, or the like. The composite outlet is an outlet provided integrally with two or more different connectors such as a LAN outlet, a television receiver outlet, a telephone outlet, and an optical connector. To the information outlet, various electrical devices such as an information floor outlet, a table tap, a wireless communication terminal, a LAN device, a computer, a television receiver, and a telephone can be connected.

  Further, when the transmission is both electric power and an information signal, the outlet 9 includes both the electric power outlet and the information outlet described above, the electric power outlet and the information outlet depending on the type of the transmission line 6. Is used as a composite outlet and a dedicated terminal for specific electrical equipment. Various electrical devices such as a power source / information composite floor outlet, a table tap, a wireless communication terminal, a LAN device, a computer, a television receiver, and a telephone can be connected to the composite outlet.

  2 is a perspective view showing a column of the floor panel system according to the present embodiment, FIG. 3 is a plan view showing the floor panel, FIG. 4 is a side view showing a support structure of the floor panel, and FIG. 5 is a floor panel. FIG. 6 is a cross-sectional view taken along the line VI-VI in FIG. 5, FIG. 7 is a plan view showing a state where the connector is in the retracted position, and FIG. It is a top view which shows the state in a coupling position.

  As shown in FIG. 2, the column 3 includes a substantially rectangular plate-like base 31 placed on the foundation floor, a pillar 32 formed integrally with the base 31, and the floor panel 4. And support portions 33 for supporting the four corners. The column part 32 is suspended upward from a substantially central part on the upper surface of the base part 31, and a support part 33 is attached to the upper end part thereof. The column portion 32 is provided with a height adjusting mechanism for adjusting the height position of the floor panel 4 by operating the handle 32a.

  The support portion 33 includes a substantially rectangular plate-like member 33a. From this plate-like member 33a, a projecting portion 33b having a substantially cross shape in plan view projects upward. A concave portion 33c is formed in a substantially central portion of the upper surface of the protruding portion 33b. And the upper surface of this protrusion part 33b becomes the mounting part 33d on which the corner | angular part of the floor panel 4 is mounted. Further, the mounting portion 33d is formed with a slit 33e that is recessed downward from the upper surface portion thereof.

  Also, as shown in FIGS. 3 and 4, in the present embodiment, the panel main body 43 has an upper surface member 41 and a lower surface member 42 formed in a substantially rectangular plate shape arranged in the vertical direction at a predetermined interval, It is comprised by couple | bonding the edge of these members. At the four corners of the panel body 43, stepped portions 44 that are lowered from the surface are formed. The stepped portion 44 has a tip portion cut out in an arc shape and is formed in a substantially fan shape in plan view. In addition, a transmission line 6 connecting between the central portions of the opposite sides of the panel main body 43 is routed in the panel main body 43 at approximately ten o'clock. Each transmission line 6 wired in a substantially cross shape has the same configuration. Therefore, only the transmission line 6 routed on one direction side (left and right direction side in FIGS. 3 and 4) will be described.

  As shown in FIG. 4, when the floor panel 4 is supported on the column 3, the corner of the floor panel 4 is placed on the mounting portion 33 d of the column 3, and the stepped portion 44 is inserted into the recess 33 c of the column 3. At this time, the bent portion 45 bent substantially at a right angle toward the lower side along the side of the panel main body 43 enters the slit 33e of the placement portion 33d. A ring member 33f is fitted into the stepped portion 44, and the ring member 33f is fixed to the column 3 with screws or the like.

  As shown in FIG. 5, the transmission line 6 is led out from a lead hole 42 c formed in the side surface portion 42 a of the lower surface member 42 of the floor panel 4.

  The connector 10 includes a male connector 10a and a female connector 10b. The male connector 10a is attached to the end of the external lead portion 6a of the transmission line 6. The female connector 10 b is fixed to the side surface portion 42 b of the lower surface member 42. By joining the male connector 10a and the female connector 10b, the respective terminals of the male connector 10a and the female connector 10b are joined, and the conducting wires in the transmission line 6 can be electrically connected to each other. In the present embodiment, the connector 10 is configured as a magnet connector.

  And in this embodiment, in the state which installed the floor panel 4 and couple | bonded the male connector 10a and the female connector 10b, it has comprised so that the external drawer | drawing-out part 6a connected to the male connector 10a may be bent loosely. is there.

  In the present embodiment, a slide mechanism 11 is provided for sliding the male connector 10a from the storage position A (broken line in FIG. 5) to the coupling position B. The slide mechanism 11 is provided in the vicinity of the central portion of one side edge of the floor panel 4 and includes a pair of rails 12 having a substantially U-shaped cross section and a plate-like slider 13.

  The rail 12 extends along a direction orthogonal to the edge of the boundary of the floor panel 4. In addition, the rail 12 is disposed with the concave grooves 12a facing each other with a predetermined interval, and is fixed to the back surface of the upper surface member 41 by welding or the like.

  The end portions 13b on both ends in the width direction of the base end portion 13a of the slider 13 are slidably inserted into the corresponding concave grooves 12a, so that the slider 13 can slide relative to the rail 12. It has become.

  The male connector 10 a is attached to the tip portion 13 c of the slider 13. Further, a fragile portion 13A is formed between the proximal end portion 13a and the distal end portion 13c of the slider 13.

  The fragile portion 13 </ b> A is formed as a V-shaped groove extending in the width direction of the slider 13. Further, the fragile portion 13A is formed at a position where the floor panel 4 is installed and the male connector 10a and the female connector 10b are coupled to each other so as to substantially overlap the boundary of the floor panel 4 of the slider 13 in the vertical direction. Thus, it becomes a starting point of deformation when an excessive load is applied to the slider 13. Note that the fragile portion 13A is disposed on the upper surface portion and the lower surface portion of the slider 13 so as to face each other in the vertical direction, and overlaps in the vertical direction.

  An operation unit 14 that slides the slider 13 is provided upright at a substantially central portion of the upper surface of the slider 13. The operation unit 14 is inserted into a through hole 41 a extending along the extending direction of the rail 12 on the upper surface of the panel main body 43, and the upper end portion thereof does not protrude upward from the upper surface member 41. With the above configuration, the slider 13 can be slid in the extending direction of the rail 12 by moving the operation unit 14 along the extending direction of the through hole 41a.

  In the present embodiment, when the connector 10 is coupled, the conduction between the transmission lines 6 can be confirmed by the display unit 16 provided on the upper surface of the floor panel 4.

  In the above configuration, as shown in FIGS. 7 and 8, by sliding the operation unit 14, the male connector 10a is moved from the storage position A (FIG. 7) toward the coupling position B (FIG. 8). , And can be coupled to the female connector 10b. At this time, in this embodiment, the joined connector 10 is arranged on the floor panel 4 side having the female connector 10b from the boundary (joint) of the floor panels 4 connected to each other.

  Here, when an excessive load acts on the boundary portion of the floor panel 4, for example, one floor panel 4 may be greatly bent downward, and a relative displacement may occur between adjacent floor panels 4. At this time, if the male connector 10 a and the female connector 10 b are fixed to each floor panel 4, there is a possibility that a load due to relative displacement acts on the connecting portion of the connector 10.

  In this respect, in the present embodiment, since the outer lead portion 6a of the transmission line 6 is bent so as to be loosened, the relative displacement can be absorbed by the outer lead portion 6a, and a load acts on the connecting portion of the connector 10. This can be suppressed.

  Further, since the fragile portion 13A is formed on the slider 13, when an external force acts on the slider 13, the slider 13 bends or breaks with the fragile portion 13A as a base point, and the connector 10 is connected to the connecting portion due to relative displacement. It can suppress that a load acts.

  As described above, in the present embodiment, the connector 10 provided in the outer lead portion 6a of the transmission line 6 is connected in a state where the outer lead portion 6a is bent so as to be loosened. Therefore, even when a relative displacement occurs between the adjacent floor panels 4, the relative displacement can be absorbed by the bent portion of the external lead-out portion 6 a, so that the connection state of the connector 10 can be more easily maintained. .

  In the present embodiment, one connector 10 of the adjacent floor panel 4 is arranged on the other side of the boundary between the floor panels 4. Therefore, even when a relative displacement occurs between the adjacent floor panels 4, it is possible to suppress the end of the floor panel 4 from contacting the connector 10, and the connection state of the connector 10 can be better maintained.

  In the present embodiment, the connector 10 is slidably mounted between the storage position A and the coupling position B of the floor panel 4 and can be operated by the operation unit 14 provided on the upper surface of the floor panel. Therefore, the connector 10 can be more easily coupled after the floor panel 4 is disposed.

  In the present embodiment, the connector 10 is a magnet connector. Therefore, the connector 10 can be more easily coupled.

  Further, by providing the transmission line 6 in the panel body 43 of the floor panel 4 in this way, it is possible to reduce or eliminate the transmission line routed in the space 5 between the floor panel 4 and the foundation floor 2. Therefore, the floor panel 4 and the foundation floor 2 are compared with the case where the transmission line is arranged only in the space 5 between the floor panel 4 and the foundation floor 2 without providing the transmission line in the panel body 43 of the floor panel 4. The height of the space 5 between the two can be lowered, and the floor surface (upper surface) of the floor panel system 1 can be lowered. Therefore, the indoor space can be increased to widen the room.

  By the way, in this embodiment, by providing the transmission line 6 integrally with the floor panel 4 as described above, the electric device 15 is built in the floor panel 4 and the electric device 15 is connected to the transmission line 6, Electrical equipment (not shown) outside the panel 4 can be connected to the transmission line 6 (hereinafter also referred to as external connection).

  For example, it is possible to detect the position of a person by adopting a position detection sensor as the electric device 15 that is built in or externally connected to the floor panel 4. Further, by adopting an air conditioner as the electric device 15 built in or externally connected to the floor panel 4, it becomes possible to individually control the indoor air environment such as temperature and humidity. Moreover, it becomes possible to control interior lighting by employ | adopting a lighting fixture as the electric equipment 15 incorporated in the floor panel 4 or connected externally.

  Further, by adopting an electric energy sensor as the electric device 15 that is built in or externally connected to the floor panel 4, it becomes possible to control the electric energy and electric power distribution in the floor panel system 1. Further, by adopting a load sensor capable of detecting the presence or absence of an object as the electric device 15 built in or externally connected to the floor panel 4, the position of the tangible asset can be detected and managed. In addition, by employing a human sensor capable of detecting a person as the electrical device 15 built in or externally connected to the floor panel 4, it is possible to notify the worker of the presence (danger) of a suspicious person. In this case, for example, the floor panel system 1 can be applied to a hallway to notify a worker who is working overtime of a danger such as a suspicious person being in the hallway. Further, by adopting a piezoelectric element as the electric device 15 that is built in or externally connected to the floor panel 4, it is possible to generate electric power and supply the electric power to other electric devices.

  In addition, the transmission line 6 can be variously wired in the floor panel 4 as shown in FIGS.

  In the present embodiment, the floor panel 4 is supported by the support column 3 and spread on the foundation floor 2. However, the present invention is not limited to this. For example, the floor panel 4 is not disposed on the foundation floor 2 via the support column 3. You may make it spread directly.

  (Second Embodiment) A second embodiment of the present invention will be described with reference to the drawings. FIG. 13 is a perspective view schematically showing the floor panel system according to the present embodiment. The basic structure of the floor panel system 101 of this embodiment is the same as the floor panel system 1 of the first embodiment. Therefore, it demonstrates centering on difference with 1st Embodiment, attaches | subjects the same code | symbol to the same part as 1st Embodiment, and abbreviate | omits the description which overlaps.

  As shown in FIG. 13, the floor panel system 101 of this embodiment is different in the floor panel 104 and the transmission path 107 from the floor panel system 1 of the first embodiment.

  Specifically, in the present embodiment, the transmission line 6 is arranged so as to connect the corners of the floor panel 104 facing each other across the center portion of the floor panel 104, and is substantially X-shaped as a whole. It has been routed. The transmission lines 6 of the adjacent floor panels 104 are connected to each other via a support portion 33A of the support column 3A, and a transmission path 107 is formed in the floor panel system 101 by these transmission lines 6 and the support portion 33A. Similarly to the first embodiment, the transmission management unit 8 and the outlet 9 can be connected to the transmission path 107, and the electrical equipment 15 connected to the outlet 9 and the transmission management apparatus 8 are connected to the transmission path 107. It is supposed to be connected via.

  FIG. 14 is a side view showing a connection portion of transmission lines arranged in the floor panel according to the present embodiment.

  In the present embodiment, the transmission line 6 is led out to the outside from a lead hole 42e formed in the bottom surface portion of the bottom surface member 42 of the floor panel 104, and the male connector 10a is provided at the end of the external lead portion 6a. Is provided.

  In the present embodiment, the transmission lines 6 are connected to each other via the support 3A. Specifically, the relay transmission line 6b is provided inside the support portion 33A of the support column 3, and the female connector 10b is provided at the end thereof.

  Also in this embodiment, in the state where the floor panel 104 is installed and the male connector 10a and the female connector 10b are coupled, the external lead portion 6a connected to the male connector 10a is configured to be bent and bent. is there.

  In the above configuration, the transmission line 6 is connected between the adjacent floor panels 104 by connecting the male connector 10a of each floor panel 4 and the corresponding female connector 10b of the supporting column 3A. The transmission lines 6 can be electrically connected to each other.

  Here, if an excessive load is applied to the boundary portion of the floor panel 104, a relative displacement may occur between the floor panel 104 and the column 3A. At this time, if the male connector 10a and the female connector 10b are fixed to the floor panel 104 and the column 3A, respectively, there is a possibility that a load may act on the connecting portion of the connector 10.

  In this respect, in this embodiment, since the external lead portion 6a connected to the male connector 10a is bent so as to be loosened, the relative displacement can be absorbed by the external lead portion 6a, and a load is applied to the connecting portion of the connector 10. It can suppress acting.

  As described above, in the present embodiment, the transmission lines 6 of the floor panel 104 are connected to each other via the support 3A, and the male connector 10a provided on the external lead portion 6a of the transmission line 6 is The external lead portion 6a is connected in a bent state so as to be loosened. Therefore, even when a relative displacement occurs between the floor panel 104 and the column 3A, the relative displacement can be absorbed by the bent portion of the external lead portion 6a, so that the connection state of the connector 10 is maintained better. It becomes easy to do.

  Further, by providing the transmission line 6 in the panel body 43 of the floor panel 104 in this way, the transmission line routed in the space 5 between the floor panel 104 and the foundation floor 2 is provided as in the first embodiment. Can be reduced or eliminated. Therefore, the floor panel 104 and the foundation floor 2 are compared with the case where the transmission line is routed only in the space 5 between the floor panel 104 and the foundation floor 2 without providing the transmission line in the panel body 43 of the floor panel 104. The height of the space 5 between the floor panel system 101 and the floor panel system 101 can be lowered. Therefore, the indoor space can be increased to widen the room.

  In the present embodiment, the transmission line 6 is integrally provided on the floor panel 104 as described above, so that the electrical device 15 is built in the floor panel 104 and transmitted to the floor panel 104, as in the first embodiment. It can be connected to the line 6, or an electrical device (not shown) outside the floor panel 104 can be connected to the transmission line 6. Since the example of such a configuration is the same as that of the first embodiment, the description thereof is omitted.

  The transmission line 6 can be variously arranged in the floor panel 104 as shown in FIGS.

  Also in this embodiment, the floor panel 104 is supported by the support 3A and spread on the foundation floor 2 as in the first embodiment, but is not limited to this. For example, the floor panel 104 is used as the foundation. It may be arranged directly on the floor 2 without the support 3A.

  By the way, in other parts of the floor, a floor panel system 201 as shown below may be installed. FIG. 18 is a perspective view schematically showing such a floor panel system, and FIG. 19 is a perspective view schematically showing the floor panel.

  That is, as shown in FIG. 18, the floor panel system 201 includes a plurality of laying-type rectangular floor panels 204, and these floor panels 204 are directly laid on the foundation floor 2 in a grid pattern. The The floor panel system 201 and the foundation floor 2 form a double floor. In FIG. 18, the boundary between the floor panels 204 is indicated by a bold line.

  As shown in FIGS. 18 and 19, the floor panel 204 includes a rectangular plate-like panel body 210 as a skeleton member. In the panel body 210, a wiring groove 211 having an upper surface opening is formed in a cross shape, and the upper surface of the wiring groove 211 is closed by a detachable lid 212. The wiring grooves 211 between the adjacent floor panels 204 are in communication with each other, and a grid-like groove 213 is formed in the floor panel system 201 by the plurality of wiring grooves 211. A transmission line can be disposed in this groove.

  The transmission line 6 is embedded in the lid 212 so as to form a cross in accordance with the shape of the wiring groove 211. The transmission lines 6 of the lids 212 in the adjacent floor panels 204 are connected to each other, and a transmission line 207 having a lattice shape is formed in the floor panel system 201 by the transmission lines 6 in the lids 212 and the like. . Similarly to the first embodiment, the transmission management device 8 and the outlet 9 can be connected to the transmission path 207, and the electrical equipment 99 connected to the outlet 9 and the transmission management apparatus 8 are connected to the transmission path. 207 is connected. The transmissions transmitted by the floor panel system 201 via the transmission path 207 are the same as those in the first embodiment.

  As described above, since the transmission line 6 is embedded in the lid 212 of the floor panel 204, the transmission path 207 is formed in the floor panel system 201 even if the floor panel 204 is directly laid on the foundation floor 2. Therefore, it is not necessary to form a space for wiring between the lower surface of the floor panel 204 and the foundation floor 2, and the floor surface (upper surface) of the floor panel system 201 can be lowered accordingly. Therefore, the indoor space can be increased to widen the room. Such an effect is obtained by, for example, laying the floor panel 4 of the first embodiment directly on the foundation floor 2 without the support 3 and connecting the transmission lines 6 of the adjacent floor panels 4 with a connecting member. The same effect as described above can be obtained.

  Further, by providing the transmission line 6 integrally with the floor panel 204 as described above, the electrical device 99 is built in the floor panel 204 and connected to the transmission line 6 as in the first embodiment. Electrical equipment (not shown) outside the floor panel 204 can be connected to the transmission line 6, whereby the electrical equipment 99 inside and outside the floor panel 204 can be remotely controlled and used. Since the example of such a configuration is the same as that of the first embodiment, the description thereof is omitted.

  The present invention is not limited to the above embodiment, and various other embodiments can be adopted without departing from the gist of the present invention. For example, in the above-described embodiment, the configuration in which the transmission line is provided in the panel body of the floor panel is illustrated. However, the present invention is not limited thereto, and the transmission line is disposed outside the panel body and is provided integrally with the panel body. It may be. For example, a transmission line may be provided along the lower surface of the panel body.

  Further, the panel body may be filled with a filling material such as mortar. Further, the transmission line may be routed along the upper surface or the lower surface of the lid.

1 is a perspective view schematically showing a floor panel system according to a first embodiment of the present invention. It is a perspective view which shows the support | pillar of the floor panel system concerning 1st Embodiment of this invention. It is a top view which shows the floor panel concerning 1st Embodiment of this invention. It is a side view which shows the support structure of the floor panel concerning 1st Embodiment of this invention. It is sectional drawing which shows the connection part of the transmission line routed by the floor panel concerning 1st Embodiment of this invention. It is VI-VI sectional drawing of FIG. It is a top view which shows the state which has the connector concerning 1st Embodiment of this invention in a storing position. It is a top view which shows the state which has the connector concerning 1st Embodiment of this invention in a coupling position. It is a perspective view showing roughly the 1st modification of the floor panel concerning a 1st embodiment of the present invention. It is a perspective view showing roughly the 2nd modification of the floor panel concerning a 1st embodiment of the present invention. It is a perspective view showing roughly the 3rd modification of the floor panel concerning a 1st embodiment of the present invention. It is a perspective view showing roughly the 4th modification of the floor panel concerning a 1st embodiment of the present invention. It is a perspective view which shows roughly the floor panel system concerning 2nd Embodiment of this invention. It is a side view which shows the connection part of the transmission line routed by the floor panel concerning 2nd Embodiment of this invention. It is a perspective view showing roughly the 1st modification of the floor panel concerning a 2nd embodiment of the present invention. It is a perspective view showing roughly the 2nd modification of the floor panel concerning a 2nd embodiment of the present invention. It is a perspective view showing roughly the 3rd modification of the floor panel concerning a 2nd embodiment of the present invention. It is a perspective view which shows schematically the floor panel system of another part. It is a perspective view which shows the floor panel of another part.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1,101,201 Floor panel system 2 Base floor 3,3A Support | pillar 4,104,204 Floor panel 6 Transmission line 6a External lead-out part 6b Relay transmission line 10 Connector 10a Male side connector 10b Female side connector 11 Slide mechanism 12 Rail 13 Slider 14 Operation unit

Claims (6)

A plurality of substantially rectangular floor panels are laid out on the foundation floor, and the transmission lines routed in adjacent floor panels are electrically connected by connecting the connectors of each transmission line. In the floor panel system designed to
The connector is provided in an external lead portion of at least one of two transmission lines that are electrically connected to each other, and the connectors are coupled to each other in a state where the external lead portion is bent. Floor panel system.   2. The floor according to claim 1, wherein one connector of two floor panels adjacent to each other in a state where the connectors are coupled to each other is arranged on the other side of the boundary between the floor panels. Panel system. In the floor panel system in which a plurality of substantially rectangular floor panels are laid down and arranged on the foundation floor, and the transmission lines arranged in the floor panels adjacent to each other are electrically connected to each other,
A relay transmission line and a connector of the relay transmission line are provided on the support column,
A floor panel system comprising: a connector provided in an externally drawn portion of a transmission line routed in the floor panel and a connector of the relay transmission line coupled in a state where the externally drawn portion is bent. The connector is slidably attached to the main body of the floor panel between a storage position and a coupling position,
The floor panel system according to claim 1, wherein an operation unit that slides the connector is provided on an upper surface of the floor panel.   The floor panel system according to claim 1, wherein the connector is a magnet connector.   The floor panel used for the floor panel system as described in any one of Claims 1-5.

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