JP5167162B2 - Wiring panel device - Google Patents

Description

  The present invention relates to a wiring panel device that is installed in a building and forms a ceiling or a wall.

  Conventionally, as shown in FIGS. 10 (a) and 10 (b), when an electric wire 120 such as a power line or a small force wiring is wired to the electric appliance 100 arranged on the wall 110, the electric wire wired on the back side of the wall 110. 120 was led out from the through hole 111 provided in the wall 110 to the front side and connected to the electric appliance 100, and then the electric appliance 100 was attached to the wall 110 using appropriate attachment means.

  11A and 11B, when the wiring to the electric appliance 101 is exposed on the wall 110, the wiring duct 112 is formed on the surface of the wall 110 from the vicinity of the ceiling to the mounting position of the electric appliance 101. The electric wire 120 is connected to the electric appliance 101 through the electric wire 120 such as a power line or a small force wiring inside the wiring duct 112 (see, for example, Patent Document 1).

JP-A-11-234848

  In the former wiring method described above, there is a problem that it is necessary to open the through-hole 111 for passing the electric wire 120 in the wall 110, which takes time and labor for the hole-opening operation. In addition, after the electric wire 120 wired in advance on the back side of the wall 110 is pulled out from the through hole 111 to the front side and connected to the electric appliance 100, the extra length of the electric wire 120 is pushed into the inner side of the electric wire hole 111. Since it is necessary to attach 100 to the wall 110, there is a problem that it takes time and labor for wiring work.

  On the other hand, in the latter wiring method, wiring work can be performed from the front side of the wall 110, so that the labor of wiring work can be reduced as compared with the former wiring method. However, the wiring duct 112 for passing the electric wire 120 is provided on the surface of the wall 110. There was a problem that the appearance was not good.

  The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to provide a wiring panel device that allows easy wiring work and wiring without making the wires conspicuous.

In order to achieve the above object, the invention according to claim 1 is provided with a rectangular plate-like panel body that is installed inside a building and forms a construction surface such as a wall or a ceiling, and one surface in the thickness direction of the panel body. Is a detachable attachment of a functional panel having a predetermined electrical function part, and a portion of the panel body covered with the function panel includes a power line for supplying power to the electrical function part. A storage groove for high-power wiring in which the power is stored and a storage groove for small power wiring in which a small power wiring including a control signal line for transmitting a control signal to the electrical function unit is stored on one side of the panel body. Along one end of the panel body from the other end to the other end. In the panel body, both ends of the storage grooves extend from one end to the other end in a direction perpendicular to the direction in which both storage grooves extend. Communicate with the storage groove Wire housings are provided for the passage of the high-power system wiring and the small force lines are accommodated in the groove, the wire accommodating portion, a control device for controlling the electrical function of the functional panel is disposed to the control device, A first electric wire connecting means for connecting the power line is provided at a position facing the high-power wiring housing groove, and a second electric wire connecting means for connecting the small force wiring is provided at a position facing the small power wiring housing groove. It is characterized by that.

State of the invention of claim 2, in the invention of claim 1, the strong electric system wiring receiving groove of the first wire connection means, the second wire connection means receiving grooves for small force lines, which is faced each Thus, the positioning means for positioning the arrangement position of the control device is provided in the control device and the wiring housing portion .

According to a third aspect of the present invention, in the first or second aspect of the present invention, the wiring housing portion communicates with the wiring housing portion of another wiring panel device arranged side by side, and is connected to the control device. At least one of the wirings is sent and wired through a wiring housing part to a control device arranged in a wiring housing part of another wiring panel device.

According to a fourth aspect of the present invention, in any one of the first to third aspects of the present invention, at least one of the high power wiring storage groove and the small force wiring storage groove is housed inside. An electric wire holding means for holding the wiring is provided.

  According to the first aspect of the present invention, the panel main body constituting the construction surface such as a wall or ceiling has a high-voltage wiring storage groove in a portion covered with the functional panel on one surface to which the functional panel is attached. Since there is a small force wiring storage groove, connect the wiring to the electrical function part of the function panel with the functional panel removed and the high power wiring storage groove and small power wiring storage groove exposed. In addition, since the work for storing the extra length of the wiring in the storage groove can be performed, the wiring work can be easily performed, and the work for opening a hole in the panel body is not required, so that the wiring work can be simplified. In addition, the high-power wiring storage grooves and the small power wiring storage grooves are provided in the portions covered with the functional panels, so that the wirings stored in the respective storage grooves can be hidden by the functional panels, and the appearance is improved. Has the advantage of improving. Furthermore, since the storage groove for the high-power wiring that stores the high-power wiring and the storage groove for the small-power wiring that stores the low-power wiring are provided separately, the high-power wiring and the small power wiring are separated. Wiring can be performed, and there is an effect that insulation is improved. In addition, the high-power wiring storage groove and the small force wiring storage groove are provided from one end side to the other end side of the panel body along one side of the panel body. There is an advantage that it can be designed freely. In addition, since the high power wiring and the small power wiring stored in the high power wiring storage groove and the small power wiring storage groove can be accommodated in the wiring housing portion, the strong power wiring and the small power wiring can be accommodated at the end of the panel body. The surplus length of the power wiring can be stored together.

Further , since the control device is accommodated in the wiring accommodating portion, the high-power wiring and the small power wiring connecting the control device and the electric function portion are connected from the wiring accommodating portion to the high-power wiring storage groove and the small power wiring. Each can be stored through the storage groove.

Further, the first wire connection means to the storage groove for heavy electric system wiring, the second wire connection means to a small force wiring receiving groove, the control device in a state where the face respectively are accommodated in the wire accommodating portion There is an effect that the work of connecting the high-power wiring and the small force wiring to the control device can be easily performed.

According to the invention of claim 2 , since the position of the control device is determined by the positioning means, it is possible to prevent the control device from moving and applying tension to the high-power wiring and the small force wiring connected to the control device. it can.

According to invention of Claim 3 , since the wiring accommodating part of a wiring panel apparatus is connected to the wiring accommodating part of the other wiring panel apparatus arranged in parallel, it is different from the control apparatus accommodated in the wiring accommodating part. The feed wiring can be performed with respect to the control device housed in the wiring housing portion of the wiring panel device, and the overall wiring length can be shortened by performing the feed wiring, thereby reducing the cost of wiring. .

According to the invention of claim 4 , since the position of the wiring is determined, there is an advantage that the wiring length can be designed and constructed accurately.

It is a disassembled perspective view of the interior panel of this embodiment. It is a front view which shows the construction state of a wiring panel apparatus same as the above. It is a front view which shows the construction state of an interior panel same as the above. The wiring panel apparatus same as the above is shown, (a) is a front view of the main part, (b) is a sectional view seen from above, and (c) is a side view of the main part. It is a top view which shows the state before attaching a functional panel to the wiring panel apparatus same as the above. (A)-(d) is explanatory drawing of an assembly process same as the above. It is a whole block diagram same as the above. It is a top view which shows the state before attaching a different function panel to the wiring panel apparatus same as the above. (A)-(d) is explanatory drawing of an assembly process same as the above. The attachment state of the conventional wiring apparatus is shown, (a) is an external appearance perspective view, (b) is sectional drawing. The attachment state of another conventional wiring apparatus is shown, (a) is an external appearance perspective view, (b) is sectional drawing.

  Below, one Embodiment which applied the wiring panel apparatus which concerns on this invention to the interior panel which comprises the wall of a building is described based on FIGS. In the following description, unless otherwise specified, the vertical and horizontal directions are defined in the orientation shown in FIG. 2, and the front in FIG.

  FIG. 1 is an exploded perspective view of an interior panel PN. The interior panel PN includes a wiring panel device 1 and a function panel 2 as main components.

  The functional panel 2 has a rectangular plate shape with a thickness of about 15 mm, and an electric function unit 2a having a predetermined function is provided on the indoor side surface (front surface). A power supply line and a signal line are provided to the electric function unit 2a. A connection terminal (not shown) to be connected is provided on the back side. In addition, as the electric function part 2a, the lighting fixture which consists of a surface light source using the heating appliance using a sheet-like heater, the flat light guide plate, and LED arrange | positioned at the entrance plane of the one end side of a light guide plate, There is a sound field forming unit equipped with a speaker on a plane. In the illustrated example, the electrical function unit 2a is provided on a part of the front surface, but the electrical function unit 2a may be provided on substantially the entire front surface of the function panel 2.

  The wiring panel device 1 includes a panel main body 3 that is fixed to a wall (frame surface) 20 of a building and constitutes a construction surface (wall). The panel body 3 is formed by extrusion molding of a non-flammable and insulating synthetic resin material, is a vertically long rectangular plate, and is appropriately attached to one surface in the thickness direction (interior side surface, front surface). The function panel 2 is detachably attached using the means. On one surface of the panel body 3, one strong electrical wiring storage groove 4 and three small force wiring storage grooves 5 are arranged in the left-right direction at a predetermined interval at a portion covered with the functional panel 2. Is provided. The storage groove 4 for the high electrical wiring and the storage groove 5 for the small force wiring are from one end side to the other end side of the panel body 3 along one side (long side) of the panel body 3, that is, from the upper end side to the lower end in the construction state. The high-power wiring storage groove 4 stores a high-power wiring including a power line for supplying power to the electric function unit 2a, and the small force wiring storage groove 5 stores the electric function unit. A small force wiring including a control signal line for transmitting a control signal to 2a is accommodated. In the present embodiment, the high-power wiring storage groove 4 is provided at the left end, and the three small force wiring storage grooves 5 are provided side by side on the right side thereof. Further, on the front surface of the panel body 3, a plurality of reinforcing grooves 3a having a shallower depth than the both storage grooves 4 and 5 are formed on both the left and right sides with both storage grooves 4 and 5 therebetween. By providing the groove 3a, the strength of the panel body 3 is increased.

  Further, in the panel body 3, both the storage grooves 4, 5 are provided at the ends in the direction in which the high-power wiring storage grooves 4 and the small force wiring storage grooves 5 extend (both ends of the upper end portion and the lower end portion in this embodiment). Wiring accommodating portions 6 and 6 are provided from one end side to the other end side in the direction orthogonal to the direction in which the wire extends (that is, the short side direction of the panel body 3). Each wiring accommodating portion 6 is formed in a substantially box shape in which the front and left and right side surfaces are opened by bending the upper and lower side portions of a long and narrow rectangular sheet metal forward, and is integrated with the end surface of the panel body 3. Connected. Each wiring housing portion 6 is formed with a notch 7 in a portion corresponding to the high power wiring housing groove 4 and the small force wiring housing groove 5 of the panel body 3, and the inside of the wiring housing portion 6 and the high power wiring The storage groove 4 and the small force wiring storage groove 5 communicate with each other through the notch 7, and the high-power wiring and the small force wiring stored in both the storage grooves 4 and 5 are passed through the wiring housing 6. It has become so. That is, since the high-power wiring and the small power wiring housed in the high-power wiring housing groove 4 and the small-power wiring housing groove 5 can be stored in the wiring housing portion 6, the high-power wiring is stored at the end of the panel body 3. The extra lengths of the system wiring and the small power wiring can be stored together.

  The bottom wall of each wiring housing portion 6 is provided with elongated mounting holes 8 on both left and right sides, and the panel body 3 to which the wiring housing portions 6 and 6 are integrally fixed is attached to a predetermined part of the housing surface 20. An anchor bolt (not shown) embedded in the housing surface 20 is passed through the mounting hole 8 of the wiring housing 6 and a nut (not shown) is screwed onto the anchor bolt exposed from the mounting hole 8. Thus, the wiring panel device 1 is attached to the housing surface 20. In addition, the wiring housing part 6 attached to the upper side of the panel body 3 has a rectangular plate-shaped surrounding edge cover 10a covering the opening on the front side, and the wiring housing part 6 attached to the lower side of the panel body 3 has A rectangular plate-like baseboard cover 10b covering the opening on the front side is detachably attached to each other, and the wiring housed in the wiring housing portion 6 is hidden by these covers 10a and 10b, so that the appearance of the board is visible. Is improving.

  Further, as shown in FIGS. 1 and 5, the upper wiring housing 6 has through holes 9a and 9b for introducing the power supply line L1 and the control signal line L2 from the outside of the interior panel PN. The power line L1 introduced into the wiring housing portion 6 through the through hole 9a is housed in the high-power wiring housing groove 4 and introduced into the wiring housing portion 6 through the through hole 9b. The control signal line L2 is accommodated in the small force wiring accommodation groove 5. Here, the through hole 9a for introducing the power supply line L1 is opened on the left side of the wiring housing portion 6, and the through hole 9b for introducing the control signal line L2 is opened on the right side of the wiring housing portion 6. The power supply line L1 introduced from the wire hole 9a is accommodated in the high-power wiring storage groove 4 on the left side, and the control signal line L2 introduced from the through-hole 9b is connected to the high-power wiring storage groove 4 Therefore, the power supply line L1 and the control signal line L2 can be separated and housed in the wiring housing portion 6 to ensure insulation. it can.

  Further, as shown in FIG. 5, a control device 11 that controls the electric function part 2 a of the function panel 2 is housed in the lower wiring housing part 6.

  The control device 11 includes a power supply input terminal 12a to which a power supply line L1 is connected as a first electric wire connecting means at a position facing the high power wiring storage groove 4, and a power supply line L3 for supplying power to the electrical function unit 2a. Are connected to the power output terminal 12b. Here, each of the power supply input terminal 12a and the power supply output terminal 12b is configured by a conventionally known fast connection terminal. The control device 11 includes a control line connecting portion 13a to which a control signal line L2 from a controller (not shown) is connected as a second electric wire connecting means at a position facing the small force wiring storage groove 5, and an electric function portion. And a control line connecting portion 13b to which the control signal line L4 from 2a is connected. The control line connecting portions 13a and 13b are constituted by sockets to which plugs provided at the end portions of the control signal lines L2 and L4 are detachably connected, for example.

  Thus, since the control apparatus 11 is arrange | positioned in the wiring accommodating part 6, the strong electric system wiring and small power wiring which connect between the control apparatus 11 and the electric function part 2a are connected from the wiring accommodating part 6 to the strong electric system wiring. It can be stored through the storage groove 4 and the small force wiring storage groove 5 respectively. Since the control device 11 is provided with the first and second electric wire connecting means at the positions facing the high-power wiring storage groove 4 and the small force wiring storage groove 5, Since the control device 11 is accommodated in the wiring accommodating portion 6 with the first and second electric wire connection means facing, the work of connecting the high voltage system wiring and the small force wiring to the control device 11 can be easily performed.

  The control device 11 supplies the power input from the power supply line L1 to the power input terminal 12a to the feed wiring terminals 14 and 14 provided on both the left and right sides, and at the power supply unit 15 generates a voltage corresponding to the electric function unit 2a. It converts and outputs to the power supply output terminal 12b. Moreover, in the control apparatus 11, the control part 16 receives a control signal by communicating with an external controller via the control signal line L2 connected to the control line connection part 13a, and is electrically based on the received control signal. A control signal is output to the functional unit 2a to control the operation of the electrical functional unit 2a. The control unit 16 is supplied with operating power from the power supply unit 15. In the present embodiment, the control device 11 is provided separately from the electric function unit 2a. However, the function of the control device 11 may be built in the electric function unit 2a. In this case, the power line L1 is provided in the electric function unit 2a. The control signal line L2 may be directly connected.

  Here, the assembly procedure of the interior panel PN will be described with reference to FIGS. First, as shown in FIG. 6 (a), the wiring panel device 1 in which the wiring housing portions 6 and 6 are integrally coupled to the panel body 3 is fixed to the housing surface, and the lower wiring housing portion 6 is controlled. A power line and information wiring (not shown) introduced into the upper wiring accommodating portion 6 through the through holes 9a and 9b are accommodated in the high-power wiring accommodating groove 4 and the small force wiring accommodating groove 5 with the device 11 attached. To the control device 11. Next, a power supply line and a control signal line (not shown) from the function panel 2 are connected to the control device 11, and the power supply line and the control signal line are connected to the high power wiring storage groove 4 and the small force wiring storage groove 5, respectively. The functional panel 2 is attached to the front side of the panel main body 3 (see FIG. 6B) while being housed in the interior, and the surrounding edge cover 10a and the baseboard cover 10b are respectively attached to the upper and lower wiring housing portions 6 and 6. Thus (see FIG. 6C), the assembly of the interior panel PN is completed (see FIG. 6D).

  Thus, the panel main body 3 constituting the construction surface such as a wall or a ceiling has a strong electrical wiring storage groove 4 and a small area on the surface covered with the functional panel 2 on one surface to which the functional panel 2 is attached. Since the power wiring storage groove 5 is provided, with the functional panel 2 removed and the storage grooves 4 and 5 exposed, the wiring can be stored in the storage grooves 4 and 5, Since wiring can be connected to 2a and the extra length of wiring can be stored in the storage groove, wiring work can be performed easily, and there is no need to open a hole in the panel body 3, thus simplifying the wiring work. it can. In addition, since the high-power wiring storage groove 4 and the small force wiring storage groove 5 are provided in portions covered by the functional panel 2, the wiring stored in the respective storage grooves 4 and 5 is hidden by the functional panel 2. Can improve the appearance of the appearance. In addition, the high power wiring storage groove 4 for storing the high power wiring and the small power wiring storage groove 5 for storing the small power wiring are provided separately, so that the high power wiring and the small power wiring are separated. Thus, there is an effect that the insulation can be improved. Further, since the functional panel 2 can be easily attached to and detached from the wiring panel device 1 attached to the housing surface 20, the desired function can be obtained by attaching the functional panel 2 having the desired electric function part 2a to the wiring panel device 1. There is also an advantage that it can be easily obtained and can be easily adapted to replacement of the function panel 2 and electrical inspection work. Moreover, the panel main body 3 is formed in a rectangular plate shape, and the high-power wiring storage groove 4 and the small force wiring storage groove 5 are respectively arranged from one end side to the other end side of the panel main body 3 along one side of the panel main body 3. Therefore, there is an advantage that the position of the electric function part 2a can be designed freely in the function panel 2.

  As shown in FIG. 4C, protrusions 6 a extending in the left-right direction are provided on the inner surfaces of the upper and lower pieces of the wiring housing portion 6, and the protrusions 6 a are provided on both upper and lower side surfaces of the control device 11. A recessed groove 11a to be fitted may be provided. In this case, since the protrusion 6a is fitted into the concave groove 11a, the arrangement position of the control device 11 is positioned. Therefore, the first and second electric wire connecting means are respectively connected to the high-power wiring storage groove 4 and the small force. Since the arrangement position of the control device 11 can be positioned in a state where it faces the storage groove 5 for wiring, the control device 11 moves and tension is applied to the high-voltage wiring and the small force wiring connected to the control device 11. It can be prevented from joining. Here, positioning means for positioning the control device 11 is constituted by the protrusion 6a and the groove 11a.

  Further, an elastic locking piece (not shown) for hooking and locking the wiring housed inside is provided in at least one of or both of the high-power wiring housing groove 4 and the small force wiring housing groove 5. Also, since the position of the wiring is determined by hooking and locking the elastic locking piece as the electric wire holding means on the wiring in the storage groove, there is an advantage that the wiring length can be designed and constructed accurately.

  Next, a form in which a plurality of (for example, three) interior panels PN1, PN2, and PN3 are connected and used will be described with reference to FIGS. FIG. 7 shows the system configuration in this case, and three interior panels in which the power supply line L1 and the control signal line L2 are installed in the room R from the residential distribution board 30 and the management device 31 separately installed in the building, respectively. Connected to PN1 to PN3, power is supplied from the residential distribution board 30 to the control devices 11 of the interior panels PN1 to PN3, and between the management device 31 and the control devices 11 of the interior panels PN1 to PN3. By performing communication via the control signal line L2, each control device 11 receives a control signal from the management device 31 and controls the operation of the corresponding electrical function unit 2a based on the received control signal. . Since each control device 11 controls the operation of the corresponding electrical equipment unit 2a in accordance with a control signal from the management device 31, the management device 31 can operate the plurality of electrical function units 2a in an interconnected manner. For example, when using an appliance having an illumination function, an appliance having a heating function, and an appliance having a sound field forming function as the electrical equipment part 2a of each of the interior panels PN1 to PN3, for example, darken the illumination at bedtime. In addition, by controlling the temperature to be constant and sounding comfortable music, a comfortable sleeping environment can be realized.

  2 and 3 show a state in which three interior panels PN1 to PN3 are connected in series, and the wiring panel device 1 of each of the interior panels PN1 to PN3 includes a control device in the lower wiring housing portion 6. 11 is stored. Then, the power supply line L1 is introduced into the upper wiring accommodating portion 6 through the back wall wiring hole 21 provided in the housing surface 20 and the through hole 9a in the wiring panel device 1 located at the left end. The power line L1 is inserted into the high-power wiring housing groove 4 and connected to the control device 11 disposed in the lower wiring housing portion 6. Further, between the control devices 11 of the respective wiring panel devices 1, power is sent and wired via feed wires L 5 and L 5 wired in the lower wiring housing portion 6. On the other hand, in the wiring panel device 1 positioned at the right end, the small force wiring L2 is introduced into the upper wiring accommodating portion 6 through the backside wiring extraction hole 22 and the through hole 9b provided in the housing surface 20. In the two right side wiring panel devices 1, a branching device 18 is arranged in the upper wiring housing portion 6, and the branch wiring L6 branched by the branching device 18 is a small power wiring housing groove of the rightmost wiring panel device 1. 5 is connected to the control device 11 accommodated in the lower wiring accommodating portion 6. Further, the branch wiring L7 branched by the branching device 18 is sent to the wiring accommodating portion 6 of the other wiring panel device 1 connected in series, and after branching again by the branching device 18, the branch wirings L8 and L8 are respectively reduced in force. The wiring housing groove 5 is connected to a control device 11 housed in the lower wiring housing portion 6. The control device 11 of each wiring panel device 1 and the electrical function unit 2a of the function panel 2 are connected via a power supply line and a control signal line, respectively, and power is supplied from the control device 11 to the electrical function unit 2a. While being supplied, the control device 11 controls the operation of the electric function unit 2a.

  When a plurality of interior panels PN1 to PN3 are connected in this way, the wiring housing portions 6 on the upper and lower sides of each wiring panel device 1 communicate with each other, so that the high-voltage wiring and the small power wiring can be routed through the wiring housing portion 6. Each of the wirings can be routed. By performing the feeding wiring, the entire wiring length can be shortened, and the wiring cost can be reduced. Further, in the present embodiment, the small force wiring is fed through the upper wiring housing portion 6 and the high power wiring is fed through the lower wiring housing portion 6, so that the strong power wiring and the small power wiring are fed. Since the path is divided into upper and lower sides, the insulation can be improved. In contrast to the above-described embodiment, the high-power wiring may be fed through the upper wiring housing portion 6 and the small force wiring may be fed through the lower wiring housing portion 6.

  By the way, in the above-described embodiment, one functional panel 2 is attached to one wiring panel device 1, but a plurality of (for example, two) one wiring panel device 1 as shown in FIGS. The control panel 11 for controlling each functional panel can be accommodated in the wiring accommodating portion 6 of the wiring panel device 1, and a plurality of functional panels 2 having different functions can be accommodated in the wiring panel device 1. Can be used attached to.

  In the above embodiment, the embodiment in which the wiring panel device is applied to the interior panel constituting the wall has been described. However, the wiring panel device according to the present invention is applied to the interior panel constituting the ceiling of the room. Needless to say.

DESCRIPTION OF SYMBOLS 1 Wiring panel apparatus 2 Functional panel 2a Electrical function part 3 Panel main body 4 Storage groove for high power wiring 5 Storage groove for small force wiring 6 Wiring housing part 10a Circumference cover 10b Skirting cover 11 Control device PN Interior panel L1 Strong power wiring L2 small force wiring

Claims (4)

It has a rectangular plate-like panel body that is installed inside a building and forms a construction surface such as a wall or ceiling.
On one surface in the thickness direction of the panel body, a functional panel provided with a predetermined electrical function unit is detachably attached,
The portion that is covered in one surface of the panel body in the functional panel, a high-rate electrical wiring receiving groove heavy electric system wirings are accommodated including a power supply line for supplying electric power to the electrical functional unit, to the electric functional unit control signal and a small force wiring receiving groove in which the small force lines are housed, including a control signal line for transmitting, respectively, provided to the other end from one end of the panel body along one side of the panel body ,
In the end of the panel body in the direction in which both the storage grooves extend, from one end side to the other end side in the direction orthogonal to the direction in which both storage grooves extend, the both storage grooves communicate with each other. wire housings are provided for passing the high-power system wiring and the small force lines are,
A control device for controlling the electrical function part of the function panel is disposed in the wiring housing part,
The control device is provided with a first electric wire connecting means for connecting the power line at a position facing the high-power wiring housing groove, and the small power wiring is connected to a position facing the small power wiring housing groove. A wiring panel device, characterized in that second electric wire connecting means is provided . Position the control device in a state where the first electric wire connecting means faces the high power wiring storage groove and the second electric wire connection means faces the small force wiring storage groove. The wiring panel device according to claim 1 , wherein positioning means is provided in the control device and the wiring housing portion . The wiring housing portion communicates with the wiring housing portion of another wiring panel device arranged in parallel, and at least one of the high-power wiring and the small force wiring connected to the control device is the wiring. through housing portion, another wiring panel device wherein wiring is arranged in the housing portion the feed to the control device wired is that the wiring panel device according to claim 1 or 2 wherein the. The at least one of the high-power wiring storage groove and the low-power wiring storage groove is provided with a wire holding means for holding the wiring stored therein. Item 4. The wiring panel device according to any one of Items 1 to 3 .

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