JP4966070B2 - Wiring system - Google Patents

Description

  The present invention relates to a wiring system.

Conventionally, a wiring duct provided with a power supply space in which a conductor for supplying commercial AC power is accommodated in the longitudinal direction, and a communication hole communicating the power supply space and the outside on the front side is formed over the entire longitudinal direction; In addition, a wiring system is provided that includes a plug block that is attached to a wiring duct so that the plug blade faces a power supply space, and that is connected to a conductor and that is supplied with power by bringing the plug blade into contact with a conductor (for example, Patent Documents). 1).
JP-A-63-133474

  In the above wiring system, since the conductor is the power path of the commercial AC power supply, it cannot be applied in a state where the conductor is exposed. Therefore, after the outlet block is attached to the desired position of the wiring duct, It was necessary to attach a cover to the opening of the communication hole to close the communication hole. Therefore, if you want to change the position of the outlet block, the size of the opening of the communication hole changes depending on the mounting position, so it is necessary to prepare a cover according to the changed mounting position. It was not possible to respond easily.

  By the way, in the case of a weak current wire used in a small force circuit of 60V or less, wiring is allowed in an exposed state according to related laws and regulations. Therefore, instead of supplying a commercial AC power supply via a conductor, a low current electric wire is used. In order to use weak current electricity in each room in a dwelling unit, a power source that supplies commercial AC power can be used. In addition to the line, a power line for supplying weak current electricity needs to be pre-wired in each room, resulting in an increase in cost.

  The present invention has been made in view of the above problems, and an object thereof is to provide a low-cost wiring system that can easily change the arrangement of functional modules such as switches and information outlets.

In order to achieve the above-mentioned object, the invention of claim 1 is characterized in that a plurality of rod-shaped conductors constituting a low-voltage power path for supplying low-voltage power and an information path for transmitting information signals used in a weak current circuit or a small force circuit. body, and, provided a wiring module comprising a module body attached to the plurality of conductors are arranged in parallel in a state of being exposed to the erecting surface, the power block body which is attached to the module body, a power supply block accommodating the power conversion unit supplies to the plurality of conductors to convert the AC power supplied from the outside to the inside of the power supply block body to said low voltage power, and away with respect to the plurality of electrical conductors It has electrical connection means for freely contact, via the electrical connection means and a function module for exchanging electric power receiving and information signals, the power supply block body, the length of the conductor Characterized in that in the direction end side comprises a connecting means for connecting to the module body.

The invention of claim 2 is the invention of claim 1, wherein the power conversion unit, that converts the AC power into the DC power is low voltage power made of the plurality of conductors to the supplied AC / DC converter unit It is characterized by.

The invention of claim 3 is the invention of claim 1 or 2, wherein the power supply block the module body to the main body is connected to the side opposite to the side to be connected, housed AC power line supplying the AC power to the internal wiring ducts were provided, and supplying the AC power to the power converter unit via the AC power line of the cable duct.

The invention according to claim 4, in the invention of claim 1 or 2, wherein the module body to the power supply block body is connected in a direction intersecting the direction to be connected, the AC power line supplying the AC power to the internal the housed wiring duct provided, and supplying the AC power to the power converter unit via the AC power line of the cable duct.

The invention of claim 5 includes a plurality of rod-shaped conductors constituting a low-voltage power path for supplying low-voltage power and an information path for transmitting an information signal used in a weak current circuit or a small force circuit, and a construction surface. A wiring module having a module main body disposed in parallel with the plurality of conductors exposed, and a power block main body attached to the module main body; A power supply block storing a power conversion unit that converts AC power supplied from the power source into the low-voltage power and supplies the low-voltage power to the plurality of conductors, and an electrical connection means that comes into contact with and separates from the plurality of conductors has, a functional module for exchanging electric power receiving and information signals through said electrical connection means, said power supply block body, separable freely contact to with respect to the plurality of electrical conductors It comprises electrical connection means, and supplying the low voltage power to the conductor from the power converting unit via the electrical connection means.
The invention according to claim 6 is the invention according to claim 5, wherein the power conversion unit includes an AC / DC conversion unit that converts AC power into DC power that is the low-voltage power and supplies the DC power to the plurality of conductors. It is characterized by.

The invention of claim 7 is the invention of claims 1 to 6, to the power supply block body, a signal superimposing means for outputting an information signal inputted from the outside to the plurality of conductors superimposed on the low voltage power, a signal separating means for outputting to the outside to separate the information signal transmitted is superimposed on the low voltage power via the plurality of conductors, the medium for transmitting the protocol or information signals of data signals from and to the external A signal conversion means for converting at least one of them is held.

The invention of claim 8 is the invention of claims 1 to 6, a plurality of the wiring module, as well as mechanically connecting the adjacent two of the wiring module, electricity between the conductor of the wiring module manner comprises a joint block equipped with a conductive member for connecting to said joint block, a signal superimposing means for outputting an information signal inputted from the outside to the plurality of conductors superimposed on the low voltage power, said plurality of At least one of a signal separation means for separating and outputting an information signal transmitted by being superimposed on the low-voltage power via a conductor and an information signal protocol or an information signal transmission medium between the outside A signal conversion means for converting one of them is held.

According to the first aspect of the present invention, the plurality of conductors constitute a low-voltage power path and an information path. The low-voltage power path is used to supply low-voltage power used in a weak current circuit and a small power circuit. Since it is used, a plurality of conductors can be disposed in an exposed state, and therefore a member for covering the conductors is not required, so that the position of the functional module attached to the conductor can be freely changed. There is an effect. Furthermore, the power supply block main body of the power supply block is attached to the wiring module, and the power conversion unit housed in the power supply block main body converts AC power into low voltage power and supplies it to the conductor, so this system is installed. It is only necessary to wire a power supply line for supplying commercial power to the place, and there is an effect that the cost for wiring can be reduced. Further, by connecting the power block main body with the module main body using the connecting means, there is an effect that the power block main body and the module main body can be arranged in series along the longitudinal direction of the conductor.

  According to the second aspect of the present invention, AC power can be converted into DC power by the AC / DC converter and supplied to the conductor.

According to the third aspect of the invention, there is an effect that AC power can be supplied from the wiring duct connected in parallel with the power supply block main body along the longitudinal direction of the conductor.

According to the invention of claim 4 , since the wiring duct is connected to the power supply block main body from the direction intersecting the direction of connecting the module main body, the arrangement direction of the conductors supplying the low-voltage power and the wiring supplying the AC power It can arrange | position so that the alternating current power path of a duct may be crossed.

According to the invention of claim 5 , the plurality of conductors constitute a low voltage power path and an information path. The low voltage power path is used to supply low voltage power used in a weak current circuit or a small power circuit. Since it is used, a plurality of conductors can be disposed in an exposed state, and therefore a member for covering the conductors is not required, so that the position of the functional module attached to the conductor can be freely changed. There is an effect. Furthermore, the power supply block main body of the power supply block is attached to the wiring module, and the power conversion unit housed in the power supply block main body converts AC power into low voltage power and supplies it to the conductor, so this system is installed. It is only necessary to wire a power supply line for supplying commercial power to the place, and there is an effect that the cost for wiring can be reduced. Moreover, since the low voltage power is supplied from the power supply block to the conductor via the electrical connection means , the power supply block including the power conversion unit can be attached to a desired position.
According to the sixth aspect of the present invention, AC power can be converted into DC power by the AC / DC converter and supplied to the conductor.

According to the seventh aspect of the present invention, the signal superimposing means, the signal separating means, and the signal converting means held in the power block main body can transmit and receive the information signal to be superimposed on the low voltage power supplied to the conductor. Can have power supply and media converter functions.

According to the eighth aspect of the present invention, the signal superimposing means, the signal separating means, and the signal converting means held in the joint block can transmit and receive information signals to be superimposed on the low voltage power supplied to the conductor.

  Embodiments of the present invention will be described below with reference to the drawings.

(Embodiment 1)
Embodiment 1 of this invention is demonstrated based on FIGS. In the following description, unless otherwise specified, the vertical and horizontal directions are defined in the direction shown in FIG. 3A, and the front in FIG. Therefore, the left end in FIG. 3B is the rear end.

  The wiring system according to this embodiment includes a wiring module 1 disposed on a construction surface such as a wall of a building, and a power supply block 10 that converts commercial AC power into low-voltage power and supplies the conductor to the wiring module 1. And functional modules 20 (20a, 20b...) That are detachably attached to the wiring module 1 as main components. In the present embodiment, an illumination-type function module 20a and a camera-type function module 20b are used as the function module 20. When a description common to the function modules 20a and 20b is given, the function module 20 is referred to as an individual function. When describing the modules 20a and 20b, they are expressed as functional modules 20a or 20b. The functional module 20 is not limited to the illumination-type functional module 20a or the camera-type functional module 20b, but has a sensor function such as a human sensor or a brightness sensor, or a function of a speaker or an extension call. It may also have.

  As shown in FIGS. 1 and 3 (b), the wiring module 1 includes a module body 2 that is formed in a flat rectangular tube shape having both ends opened with a metal such as aluminum, and whose surface is coated with an insulating synthetic resin. I have. On the surface of the module main body 2 opposite to the mounting surface to the construction surface, a communication hole 4 that communicates the internal power supply space 3 and the outside is opened along the longitudinal direction at a substantially middle portion in the vertical direction. . The power source space 3 of the module main body 2 has long conductors 5a and 5b constituting a low-voltage power path for supplying low-voltage power and an information path for transmitting information signals on both the upper and lower sides with the communication hole 4 therebetween. Arranged along the longitudinal direction. Note that an end cap 6 is attached to the end of the module body 2 opposite to the side to which the power supply block 10 is connected.

  The body 11 (power supply block main body) of the power supply block 10 is formed so that the vertical and horizontal dimensions are substantially the same as the module main body 2 of the wiring module 1. A connecting claw piece 15 (connecting means) having a claw 15 a that engages with a locked recess (not shown) of the module main body 2 at the tip is provided at the end of the container body 11 that is connected to the module main body 2. It is movably attached in the vertical direction. The connecting claw piece 15 disposed on the upper side of the vessel body 11 has an operating portion 15 b protruding upward through a through hole (not shown) provided on the upper surface of the vessel body 11, and is biased upward by the coil spring 16. Has been. Similarly, the connecting claw piece 15 disposed on the lower side portion of the container body 11 has the operation portion 15b protruding downward through a through hole (not shown) provided on the lower surface of the container body 11, and the coil spring 16. Is biased downward. Further, a power cord 13 having an insertion plug 12 at the tip is led out from the end of the container 11 opposite to the side connected to the module body 2, and the power cord 13 is installed at the installation location of the system. The AC power is supplied to the power conversion unit 14 housed in the container 11 by being inserted into the provided power outlet.

  On the other hand, the body 21 of the functional module 20 includes a horizontally long box-shaped front cover 21a having an open rear surface, and a rear cover 21b attached to the rear surface of the front cover 21a. On the front surface of the front cover 21a, a translucent cover 22 is disposed at one end in the longitudinal direction, and a light source such as a light emitting diode is accommodated inside the translucent cover 22. In addition, a cylindrical rotating body 23 inserted into the module body 2 through the communication hole 4 is rotatably provided on the back of the container body 21, and a knob 24 for rotating the rotating body 23 is provided on the front cover. It is arranged on the front surface of 21a. A pair of plug blades 25 a and 25 b project from the circumferential surface of the rotary body 23 at symmetrical positions across the center of the rotary body 23, and the pair of plug blades 25 a and 25 b are arranged in accordance with the rotation operation of the knob 24. 25b are arranged in a horizontal direction (a direction substantially parallel to the longitudinal direction of the module main body 2), and a vertical direction (substantially parallel to the short width direction of the module main body 2) with the plug blade 25a on the upper side and the plug blade 25b on the lower side. It is possible to select the direction and the state of being aligned. Further, on the peripheral surface of the rotating body 23, locking pieces 26, 26 project from the positions closer to the front than the projecting positions of the plug blades 25a, 25b, respectively.

  Thus, when the functional module 20 is disposed, first, the power supply block 10 is inserted from one end side of the wiring module 1, and the connecting claw pieces 15, 15 of the power supply block 10 are inserted into the locked recesses of the wiring module 1. By locking, the power supply block 10 is connected to the wiring module 1. In this way, by connecting the container 11 of the power supply block 10 to the module main body 2 using the connecting claw piece 15, the container 11 of the power supply block 10 and the module main body 2 along the longitudinal direction of the conductors 5 a and 5 b. Can be arranged in series.

  Next, in a state where the power supply block 10 is connected to the wiring module 1, the wiring module 1 and the power supply block 10 are fixed to the wall material by an appropriate method, and the end cap 6 is attached to the other end side of the wiring module 1. Then, as shown in FIG. 2, the functional module 20 is wired from the front side of the wiring module 1 in a state where the rotary body 23 is rotated to the position where the plug blades 25 a and 25 b and the locking pieces 26 and 26 are aligned in the horizontal direction. When the rotary body 23 is inserted into the communication hole 4 close to the module 1 and then the knob 24 is rotated about 90 degrees in one direction, the plug blades 25a and 25b are turned into the plug blade 25a according to the rotation operation of the knob 24. The rotating body 23 rotates to the position where the locking pieces 26, 26 are aligned in the vertical direction. At this time, the front wall of the module body 2 is sandwiched between the locking pieces 26, 26 and the back surface of the container body 21 so that the container body 21 of the functional module 20 is attached to the module body 2, and each plug The blades 25a and 25b are electrically connected to the conductors 5a and 5b disposed inside the module main body 2, respectively (see FIGS. 1 and 3).

  On the other hand, when the knob 24 is rotated about 90 degrees in the reverse direction with the functional module 20 attached to the wiring module 1, the rotary blades 25a, 25b and the locking pieces 26, 26 are rotated to the positions where they are aligned in the horizontal direction. Since 23 rotates, the functional module 20 can be removed from the wiring module 1 by moving the functional module 20 forward in this state. When removing the power supply block 10 from the wiring module 1, if the operation portion 15 b of the connecting claw piece 15 is pushed and the claw 15 a of the connecting claw piece 15 is retracted from the locked recess of the wiring module 1, Since the locking state between the claw 15a and the locked recess is released, the power supply block 10 can be easily detached from the wiring module 1.

  By the way, when connecting a plurality of wiring modules 1 along the longitudinal direction, as shown in FIG. 4, a joint block 30 (connecting means) for connecting two adjacent wiring modules 1 is used. . The body 31 of the joint block 30 is formed to have substantially the same vertical and longitudinal dimensions as the module main body 2 of the wiring module 1, and the module main body 2 is connected to both ends to which the module main body 2 is connected. Connecting means (not shown) are provided. Further, inside the vessel 31 are stored conductors 32a and 32b that are electrically connected to the conductors 5a and 5b provided in the module main body 2 on both sides, respectively.

  Thus, when a plurality of wiring modules 1 are arranged on the wall, the wiring modules 1 and the joint block 30 are appropriately connected with the adjacent wiring modules 1 connected via the joint block 30. Secure to the wall using At this time, the conductors 5 a included in the plurality of wiring modules 1 are electrically connected via the conductor 32 a of the joint block 30, and the conductors 5 b included in the plurality of wiring modules 1 are connected to the joint block 30. It is electrically connected through the conductor 32b. And if the power supply block 10 is connected with the wiring module 1 located in the one end side of a connection direction, low voltage electric power will be supplied from the power supply block 10 with respect to the conductors 5a and 5b with which the several wiring module 1 is provided. An end cap 6 is attached to the wiring module 1 located on the other end side in the connecting direction, and an opening on one end side of the wiring module 1 is closed by the end cap 6.

  Next, a schematic system configuration of the wiring system will be described with reference to FIG. The power supply block 10 includes a power conversion unit 14 that converts AC power of a commercial AC power supply AC supplied from the outside into low voltage power (for example, DC 24 V) and supplies the converted power to the conductors 5 a and 5 b of the wiring module 1.

  The function module 20 receives DC power from the conductors 5a and 5b via the plug blades 25a and 25b, and generates a power source for operating the internal circuit, and a function unit for realizing a desired function. 28, a signal superimposing unit 29a that superimposes the information signal input from the functional unit 28 on the low-voltage power and outputs it to the conductors 5a and 5b, and the information transmitted superimposed on the low-voltage power via the conductors 5a and 5b A signal separation unit 29b that separates the signal and outputs the signal to the outside, and a media conversion unit 29 including a signal conversion unit 29c that converts at least one of the protocol of the information signal or the medium that transmits the information signal. . Here, in each functional module 20a, 20b, the configuration of the functional unit 28 differs depending on the function of each functional module 20a, 20b. For example, in the case of the illumination type functional module 20a, as shown in FIG. 7 (a), the LED 28a as the light source, the lighting circuit unit 28b for supplying the exciting current to the LED 28a, and the media converting unit 29 are input. The function unit 28 is configured by the lighting control unit 28c that controls the output of the lighting circuit unit 28b based on the control signal. In the case of the camera-type functional module 20b, the camera 28d is controlled based on the control signal input from the camera 28d such as a CCD camera and the media converting unit 29 as shown in FIG. 7B. In addition, the functional unit 28 is configured by the camera driving unit 28e that outputs the image data of the camera 28d to the media converting unit 29.

  The joint block 30 includes a signal superimposing unit 33a that superimposes an information signal input from the outside on a DC voltage and outputs the signal to the conductors 32a and 32b (that is, the conductors 5a and 5b of the wiring module 1), and a plurality of conductors. 32a and 32b (that is, the conductors 5a and 5b of the wiring module 1), a signal separation unit 33b that separates an information signal transmitted by being superimposed on a DC voltage and outputs it to the outside, and a cable (not shown) And a media conversion unit 33 including a signal conversion unit 33c for converting at least one of an information signal protocol and a medium for transmitting the information signal with an external device.

  As described above, in the wiring system of this embodiment, the conductors 5a and 5b included in the wiring module 1 constitute a low-voltage power path and an information path, and the conductors 5a and 5b are, for example, a weak current circuit such as DC24V. Since it is used to supply low-voltage power used in the above, a plurality of conductors 5a and 5b can be disposed in an exposed state. Therefore, since a member for covering the opening portion of the communication hole 4 (that is, the portion where the functional module 20 is not attached) is not necessary, the position of the functional module 20 attached to the conductors 5a and 5b can be freely changed. There is an effect. Furthermore, the body 11 (power supply block main body) of the power supply block 10 is attached to the module main body 2 of the wiring module 1, and the power conversion unit 14 of the power supply block 10 converts AC power into low-voltage power, and the wiring module. Since the power is supplied to the single conductors 5a and 5b, it suffices to wire only the power line to which the commercial power is supplied at the place where the present system is installed, and the cost of wiring can be reduced. .

  In the present embodiment, the power conversion unit 14 includes an AC / DC conversion unit that converts AC power into DC power, and supplies the DC power converted by the AC / DC conversion unit to the conductors 5a and 5b. be able to. The power conversion unit 14 may be an AC / AC conversion unit that converts a commercial AC power source into an AC voltage used in a small force circuit (voltage of 60 V or less). Since the low-voltage power is supplied to the bodies 5a and 5b, a member for covering the opening portion of the communication hole 4 (that is, the portion where the functional module 20 is not attached) becomes unnecessary and is attached to the wiring module 1. The position of the function module 20 can be freely changed.

  Moreover, since the media conversion part 33 is provided in the joint block 30 which connects between the several wiring modules 1, between the functional module 20 attached to the wiring module 1 and the exterior, the conductors 5a, 5b, information signals can be exchanged via the conductors 32a and 32b of the joint block 30 and the media converting unit 33.

(Embodiment 2)
A second embodiment of the present invention will be described with reference to FIGS. In the first embodiment, the power cord 13 is derived from the body 11 of the power block 10, and the plug 12 of the power cord 13 is connected to a power outlet so that commercial AC power is supplied to the power converter 14. On the other hand, in the present embodiment, the wiring duct 40 is connected to the end of the body 11 of the power supply block 10 opposite to the side to which the wiring module 1 is connected, and the power supply block 40 is connected via the wiring duct 40. 10 is supplied with commercial AC power. In addition, the same code | symbol is attached | subjected to the component which is common in the wiring system of Embodiment 1, and the description is abbreviate | omitted and only the characteristic part of this embodiment is demonstrated.

  As shown in FIG. 9, the wiring duct 40 includes a duct body 41 that is formed in a flat rectangular tube shape whose both ends are opened by a metal such as aluminum and whose surface is coated with an insulating synthetic resin. On the surface of the duct body 41 opposite to the construction surface, a communication hole 43 that communicates between the internal power supply space 42 and the outside is opened along the longitudinal direction at a substantially middle portion in the vertical direction. In the power source space 42 of the duct main body 41, long conductors 44, 44 for supplying commercial power are disposed along the longitudinal direction on both the upper and lower sides with the communication hole 43 therebetween.

  An outlet block 50 is detachably attached to the wiring duct 40. The body of the outlet block 50 includes a horizontally long box-shaped front cover 51 having an open rear surface and a rear cover 52 attached to the rear surface of the front cover 51.

  On the front surface of the front cover 51, outlet ports 54 each having a pair of plug blade insertion ports 54a are formed on both ends in the longitudinal direction. On the other hand, the rear cover 52 is integrally formed with a protruding portion 53 that protrudes toward the back side of each outlet port 54 and is accommodated in the duct body 41 through the communication hole 43. A blade receiving spring (not shown) for receiving a plug blade (not shown) inserted into the container body through each plug blade insertion port 54a is housed in each blade receiving spring. 57 is electrically connected.

  In addition, a cylindrical rotating body 55 that is inserted into the duct body 41 through the communication hole 43 is rotatably provided on the back of the outlet block 50, and a knob 56 for rotating the rotating body 55 is provided on the front cover. 51 is arranged on the front surface. A pair of plug blades 57 project from the circumferential surface of the rotating body 55 at symmetrical positions with the central portion of the rotating body 55 interposed therebetween, and the pair of plug blades 57 are horizontally aligned in accordance with the rotation operation of the knob 56. It is possible to select a state of being aligned in the direction (substantially parallel to the longitudinal direction of the duct main body 41) and a state of being aligned in the vertical direction (a direction substantially parallel to the short width direction of the duct main body 41). Each plug blade 57 is electrically connected to a blade receiving member provided corresponding to each plug blade insertion port 54a. Further, on the peripheral surface of the rotating body 55, locking pieces 58 are provided so as to protrude in front of the protruding positions of the plug blades 57.

  Thus, when the knob 56 is rotated about 90 degrees in one direction until the pair of plug blades 57 are aligned in the vertical direction (vertical direction) with the protruding portion 53 and the rotating body 55 inserted into the communication hole 43, The front wall of the duct main body 41 is sandwiched between the locking pieces 58, 58 and the back surface of the rear cover 52, and the body of the outlet block 50 is attached to the duct main body 41. It is electrically connected to conductors 44 and 44 arranged inside the main body 41. On the other hand, when the outlet block 50 is removed from the wiring duct 40, when the knob 56 is rotated about 90 degrees in the opposite direction, the pair of plug blades 57 and the locking pieces 58 are aligned in the horizontal direction. Since the engagement state between 58 and the duct main body 41 is released, the outlet block 50 can be easily detached from the wiring duct 40.

  Moreover, in this embodiment, the connection claw piece 15 demonstrated in Embodiment 1 is provided in the edge part by which the wiring duct 40 is connected in the container 11 of the power supply block 10, and the same attachment as the wiring module 1 is provided. The wiring duct 40 is attached to the power supply block 10 by the method. When the wiring duct 40 is connected to the power supply block 10, the conductors 44 and 44 housed in the wiring duct 40 are electrically connected to the input side end of the power conversion unit 14 of the power supply block 10, and the conductors 44 and 44 are connected. A commercial power supply is supplied to the power converter 14 via the power converter 14.

  An end cap 7 is attached to the end of the wiring duct 40 opposite to the side to which the power block 10 is connected, and the plug 7a of the power cord 7b drawn from the end of the end cap 7 is connected to a power outlet ( A commercial power supply is supplied to the conductors 44 and 44 of the wiring duct 40 by plugging in and connected to the power conversion unit 14 of the power supply block 10 and the outlet of the outlet block 50 via the conductors 44 and 44. Commercial power is supplied to the port 54.

  As described above, in the wiring system of the present embodiment, the wiring duct 40 is connected to the side opposite to the side where the module main body 2 is connected to the body 11 of the power supply block 10, and the AC power path ( Since AC power is supplied to the power conversion unit 14 via the conductors 44, 44), the power conversion unit 14 is connected side by side with the container 11 of the power supply block 10 along the longitudinal direction of the conductors 5a, 5b of the wiring module 1. AC power can be supplied from the wiring duct 40. As shown in FIG. 8, a cover 45 is attached to the communication hole 43 of the wiring duct 40 so as to close the power supply space 42.

(Embodiment 3)
A third embodiment of the present invention will be described with reference to FIGS. In the second embodiment, the power supply block 10 and the wiring module 1 are connected by connecting a wiring duct 40 for supplying commercial AC power to the side opposite to the side where the wiring module 1 for supplying low-voltage power to the power supply block 10 is connected. In this embodiment, as shown in FIG. 11, the wiring duct 40 and the wiring duct 40 are linearly arranged. ), The wiring duct 40 is connected. In addition, since it is the same as that of Embodiment 2 mentioned above except the connection direction of the wiring duct 40, the same code | symbol is attached | subjected to a common component and the description is abbreviate | omitted.

  The body 11a of the power supply block 10 is formed in a substantially cross shape when viewed from the front, and connecting claw pieces 15 for connecting the wiring module 1 are provided on both left and right side portions. Further, on both the upper and lower side surfaces of the container body 11a, there are provided projecting portions 17 and 17 having substantially the same width and thickness dimensions as the body of the wiring duct 40. A connecting claw piece 15 for connecting the duct 40 is provided.

  FIG. 11 is a schematic block diagram showing the internal circuit of the power supply block 10, and AC side connection terminals T1, T1 to which the conductors 44, 44 of the wiring ducts 40, 40 connected from the upper and lower sides are electrically connected, respectively. DC side to which the conductors 5a and 5b of the wiring module 1 connected from both the left and right sides are electrically connected to the AC side connection terminals T2 and T2 (hereinafter abbreviated as connection terminals T1, T1, T2 and T2). Connection terminals t1, t1 and DC side connection terminals t2, t2 are provided (hereinafter abbreviated as connection terminals t1, t1, t2, t2). The connection terminals T1, T1 and the connection terminals T2, T2 are electrically connected via an internal AC power path L2, respectively, and the connection terminals t1, t1 and the connection terminals t2, t2 are respectively connected to internal DC power paths. It is electrically connected via L3. The power supply block 10 also converts a commercial power supply supplied from the internal AC power path L2 into a DC power supply and outputs it to the internal DC power path L3, and an information signal input from the AC power path L2 Is superimposed on the direct current voltage (low voltage power) and output to the direct current power path L3 (that is, the conductors 5a and 5b) and superimposed on the direct current voltage via the direct current power path L3 (that is, the conductors 5a and 5b). Between the information signal transmitted and received superimposed on the AC voltage and the signal signal superimposed and received on the DC voltage, and the signal separator 18b that separates the transmitted information signal and outputs it to the AC power path L2. And a media conversion unit 18 including a signal conversion unit 18c for converting at least one of the protocol and the transmission medium.

  Thus, when using this wiring system, the module body 2 of the wiring module 1 is connected to the left and right sides of the body 11a of the power supply block 10 using the connecting claw pieces 15 and both the upper and lower side surfaces of the body 11a. The duct main body 41 of the wiring duct 40 is coupled to each projecting portion 17 provided on the wiring duct 40 using the coupling claw piece 15. Further, the end cap 7 is connected to the end of the wiring duct 40, and the plugs 7a of the power cord 7b drawn out from the end cap 7 are plugged into a power outlet (not shown), so that the conductors 44, 44 is supplied with commercial power. Here, the power conversion unit 14 of the wiring module 10 converts the commercial power obtained from the AC power path L2 into DC power and supplies it to the wiring module 1, so that the functional module 20 connected to the wiring module 1 is connected. DC power is supplied. Further, the media conversion unit 18 of the wiring module 10 performs protocol conversion between the transmission signal exchanged via the AC power path L2 and the transmission signal exchanged via the DC power path L3. The function module 20 connected to 1 can exchange transmission signals with the equipment connected to the AC power path via the wiring module 1, the power supply block 10 and the wiring duct 40. Moreover, according to this embodiment, since the wiring duct is connected to the container 11 of the power supply block 10 from the direction in which the module main body 2 of the wiring module 1 is connected and the direction that intersects, the conductive material that supplies low-voltage power. It can arrange | position so that the arrangement direction of the bodies 5a and 5b and the arrangement direction of the alternating current power path of the wiring duct 40 may cross | intersect.

(Embodiment 4)
A fourth embodiment of the present invention will be described with reference to FIGS. In the first embodiment, the power supply block 10 is connected to the end of the wiring module 1 in the longitudinal direction. In the present embodiment, as shown in FIGS. The power supply block 10a is made detachable from the wiring module 1 in the same manner. Since the configuration other than the power supply block 10a is the same as that of the first embodiment, common components are denoted by the same reference numerals, and description thereof is omitted.

  As shown in FIG. 12B, a cylindrical rotating body 62 inserted into the module body 2 through the communication hole 4 is rotatably provided on the back of the body 61 of the power supply block 10a. A knob 65 for rotating the rotating body 62 is disposed on the front surface of the container body 61. A pair of plug blades 63 project from the circumferential surface of the rotating body 62 at symmetrical positions across the center of the rotating body 62, and the pair of plug blades 63 are horizontally aligned in accordance with the rotation operation of the knob 65. A state in which the pair of plug blades 63 are arranged in a vertical direction (a direction substantially parallel to the short width direction of the module body 2) can be selected. It has become. Further, on the peripheral surface of the rotating body 62, locking pieces 64, 64 project from the positions closer to the front than the projecting positions of the plug blades 63, respectively. A power cord 66 electrically connected to the pair of plug blades 63 is drawn out from the lower surface of the container body 61, and a plug 67 provided at the end of the power cord 66 is inserted into a power outlet (not shown). By connecting, commercial power is supplied to the power supply block 10a.

  FIG. 13 is a block diagram showing an internal circuit of the power supply block 10a. The power conversion unit 14 converts the commercial power supplied via the plug 67 into a DC power supply and supplies it to the pair of plug blades 63. An information signal input from the AC power path is superimposed on a DC voltage (low voltage power) and output to a DC power path (ie, conductors 5a, 5b), and a signal superimposing unit 18a, and a DC power path (ie, conductor 5a, 5b), a signal separation unit 18b that separates and transmits an information signal transmitted by being superimposed on a direct current voltage via 5b), and information that is transmitted and received by being superimposed on an alternating current voltage that is supplied via the alternating current power path. A media converter including a signal converter 18c that converts at least one of a protocol and a transmission medium between a signal and an information signal transmitted and received superimposed on a DC voltage supplied via a DC power path. And a Bart portion 18.

  Here, when the power supply block 10a is arranged in the wiring module 10, as shown in FIG. 12 (b), the rotating body 62 is moved to a position where each pair of plug blades 63 and locking pieces 64 are aligned in the horizontal direction. When the power supply block 10a is brought close to the wiring module 1 from the front side of the wiring module 1 in the rotated state and the rotating body 62 is inserted into the communication hole 4, the knob 65 is rotated about 90 degrees in one direction. In accordance with the rotation operation of the knob 65, the rotating body 62 rotates to a position where each pair of plug blades 63 and the locking pieces 64 are arranged in the vertical direction. At this time, the front wall of the module body 2 is sandwiched between the locking pieces 64 and 64 and the back surface of the container body 61 so that the container body 61 of the power supply block 10a is attached to the module body 2 and each plug The blades 63 and 63 are electrically connected to the conductors 5a and 5b disposed inside the module main body 2, respectively. Further, since each pair of plug blades 63 is electrically connected to the conductors 5a and 5b of the wiring module 1, the DC voltage supplied from the power supply block 10a functions via the conductors 5a and 5b of the wiring module 1. It is supplied to the module 20. Further, since the media conversion unit 18 performs protocol conversion between a transmission signal exchanged via the AC power path and a transmission signal exchanged via the DC power path, the functions connected to the wiring module 1 The module 20 can exchange transmission signals with devices connected to the AC power path via the wiring module 1 and the power supply block 10a. Moreover, in this embodiment, the low voltage electric power is supplied to the conductors 5a and 5b from the power supply block 10a latched to the conductors 5a and 5b of the wiring module 1 via the plug blade 63 (electrical connection means). Therefore, the power supply block 10 a (power supply block) including the power conversion unit 14 can be attached to a desired position of the wiring module 1.

  In the present embodiment, the power conversion unit 14 of the power supply block 10a converts the commercial power into a DC voltage and supplies it to the wiring module 1. However, for example, the power conversion unit 14 converts the commercial power into an AC voltage of 60V or less used for a small power circuit. You may make it supply to the wiring module 1. FIG.

It is an external appearance perspective view of the state which attached the functional module to the wiring module used for the wiring system of Embodiment 1. FIG. It is explanatory drawing which showed the state before attaching a functional module to the wiring module used for the same as the above. The state which attached the functional module to the wiring module used for the same as the above is shown, (a) is a partly omitted front view, (b) is a side sectional view. It is explanatory drawing of the state which connected the several wiring module used for the same as the above. It is explanatory drawing of the power supply block used for the same as the above. It is a schematic system block diagram same as the above. (A) and (b) are the principal part block diagrams of a functional module. It is an external appearance perspective view of the state which attached the functional module to the wiring module used for the wiring system of Embodiment 2. It is explanatory drawing which showed the state before attaching an outlet block to the wiring duct used for the same as the above. It is a schematic block diagram which shows the wiring system of Embodiment 3. It is a schematic block diagram of the power supply block used for the same as the above. (A) is a schematic block diagram which shows the wiring system of Embodiment 4, (b) is an external appearance perspective view of a power supply block. It is a schematic block diagram of the power supply block used for the same as the above.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Wiring module 2 Module main body 5a, 5b Conductor 10 Power supply block 11 Body 20a Functional module

Claims (8)

A plurality of bar-shaped conductors constituting an information path for transmitting a low-voltage power path for supplying low-voltage power and an information signal used in a weak current circuit or a small force circuit, and the plurality of conductors attached to a construction surface A wiring module having a module main body arranged in parallel with the exposed,
It comprises a power block body which is attached to the module body, housing the power conversion unit supplies to the plurality of conductors of the AC power supplied from the outside to the inside is converted into the low voltage power of the power supply block body Power block,
Have electrical connection means for separable freely contact with the plurality of conductors, and a function module for exchanging electric power receiving and information signals through said electrical connection means,
The wiring system according to claim 1, wherein the power supply block main body includes connection means for connecting to the module main body on one end side in the longitudinal direction of the conductor. Wiring system of claim 1, wherein the power conversion unit converts the AC power into the DC power is low voltage power, characterized in that it consists of AC / DC conversion unit supplies to the plurality of conductors. A wiring duct is provided that is connected to the side opposite to the side to which the module main body is connected to the power supply block main body, and stores an AC power path for supplying AC power therein, and through the AC power path of the wiring duct. wiring system according to any one of claims 1 or 2, characterized in that for supplying AC power to the power conversion unit Te. A wiring duct that is connected to the power supply block main body from a direction that intersects the direction in which the module main body is connected and that stores an AC power path for supplying AC power therein is provided, and the AC power path of the wiring duct is provided. wiring system according to any one of claims 1 or 2, characterized in that for supplying AC power to the power converter unit via. A plurality of bar-shaped conductors constituting an information path for transmitting a low-voltage power path for supplying low-voltage power and an information signal used in a weak current circuit or a small force circuit, and the plurality of conductors attached to a construction surface A wiring module having a module main body arranged in parallel with the exposed,
A power block main body attached to the module main body is provided, and a power conversion unit for converting AC power supplied from the outside into the low-voltage power and supplying it to the plurality of conductors is housed inside the power block main body. Power block,
An electrical connection means that comes in contact with and separates from the plurality of conductors, and a functional module that receives power and exchanges information signals through the electrical connection means,
The power supply block main body includes electrical connection means that comes into contact with and separates from the plurality of conductors, and supplies the low-voltage power from the power conversion unit to the conductors via the electrical connection means. wiring system that is characterized in that. The wiring system according to claim 5 , wherein the power conversion unit includes an AC / DC conversion unit that converts AC power into DC power that is the low-voltage power and supplies the DC power to the plurality of conductors . Transmitted to the power supply block body, is superimposed a signal superimposing means for outputting by superimposing the information signal input from outside to the low voltage power to the plurality of conductors, the low voltage power via the plurality of electrical conductors A signal separation unit that separates the output information signal and outputs it to the outside, and a signal conversion unit that converts at least one of the protocol of the information signal or the medium for transmitting the information signal with the outside The wiring system according to claim 1, wherein: Wherein a plurality of wiring module, as well as mechanically connecting the adjacent two of the wiring module, comprising a joint block equipped with a conductive member for electrically connecting the conductors of the wiring module, the joint Signal superimposing means for superimposing an externally inputted information signal on the low-voltage power and outputting it to the plurality of conductors in the block, and information transmitted superimposed on the low-voltage power via the plurality of conductors A signal separation unit that separates a signal and outputs it to the outside, and a signal conversion unit that converts at least one of an information signal protocol and a medium for transmitting the information signal between the outside and the outside are held. The wiring system according to any one of claims 1 to 6.

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