JPS6259534B2 - - Google Patents

Description

[Detailed description of the invention] Technical field The present invention relates to an indoor wiring system.

Background Art Referring to FIG. 1, in the prior art, when there are six branch circuits indoors, a main breaker 2 and branch breakers 3 to 8 are provided in the distribution board 1, and a Branch lines 9 to 14 are wired from a distribution board 1. Furthermore, radio waves such as television radio waves from outdoors via the antenna 15 are amplified by the amplifier 17 of the information polarization board 16 . An information transmission main line 18 is wired from the information distribution board 16 in order to send the radio waves amplified by the amplifier 17 to each room indoors. There is a branch 19 in the middle of the information transmission main line 18.
.about.21 are provided, and information transmission branch lines 22-24 are connected to the branchers 19-21. Further, an information transmission main line 25 is wired for information exchange between rooms, etc., for communication, remote control, etc. There are branch switches 26 to 3 in the middle of the information transmission main line 25.
2 are provided, and information transmission branch lines 33-39 are connected to the branchers 26-32. In such prior art, the branch lines 9 to 14 and the information transmission main line 1
Since 8 and 25 are wired vertically and horizontally and individually,
This results in increased complexity and poor scalability. Further, in order to provide the main breaker 2 and the branch breakers 3 to 8 on the distribution board 1, a large-sized distribution board is required.

Purpose An object of the present invention is to provide an indoor wiring system that can solve the above-mentioned technical problems, simplify indoor wiring, and downsize the distribution board.

Embodiments Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 2 is a perspective view of an embodiment of the present invention;
FIG. 3 is a block circuit diagram corresponding to FIG. 2. For each of the plurality (five shown) branch lines 51 to 55 for indoor branch circuits, information transmission branch lines 56 to 55 are provided.
60 is integrally wired. A single two-wire or three-wire trunk 61 and a single information transmission trunk 62 such as a coaxial line are integrally wired across the branch lines 51 to 55 and the information transmission branch lines 56 to 60.

One end of the main line 61 is connected to a main breaker 64 of a distribution board 63. The main breaker 64 is connected to a drop-in line 66 via an integrated wattmeter 65. The distribution board 63 is provided with an amplifier 67 . amplifier 67
is energized by AC power via the main breaker 64 and amplifies radio waves from the outdoors via the antenna 113. The output of amplifier 67 is connected to information transmission main line 62 . A partition wall 6 for electromagnetic shielding is provided between the main breaker 64 and the amplifier 67.
8 is provided. The power distribution board 63 functions as an information power distribution board as a power distribution board and an information power distribution board.

In the middle of the trunk line 61 and the information transmission trunk line 62,
Branch boxes 69 to 71 and substation boards 72 and 73 are provided as connection means. The branch box 69 is connected to a joint box 74 and a turnout 75 as specifically shown in FIG.
and has. Joint box 74 is main line 6
1a and the main line 61b, and the main line 6
1a, 61b and the branch line 51 are connected. The branch 75 connects the information transmission trunk line 62a and the information transmission trunk line 62.
b and information transmission trunk lines 62a, 6.
2b and the information transmission branch line 56 are connected. Further, the branching switch 75 performs impedance matching and transmits superimposed information such as video signals, audio signals, data signals, etc. using low voltage direct current or alternating current from the information transmission main lines 61a and 61b and the information transmission branch line 56, The information is transmitted in both directions of the information transmission trunk line 62a, the information transmission trunk line 62b, and the information transmission branch line 56. Between the joint box 74 and the turnout 75,
A partition wall 76 is provided for electromagnetic shielding.
Branch boxes 70 and 71 are constructed similarly to branch box 69, including joint boxes 77 and 78 and branchers 79 and 80, respectively.

The substation board 72 is specifically shown in FIG. Power from the power trunk line 61 is supplied from the joint box 83 via the power trunk line 61 . The information transmission main line 62 is, for example, a coaxial cable, and information is further transmitted from the branch 84 via the information transmission main line 62. A signal from branch 84 is given to modem 133 via coaxial cable 132. This modem 133
is connected via a line 134 to an arithmetic processing circuit 135, which will be described later, and includes a microcomputer and the like. The output from the arithmetic processing circuit 135 is connected to the control relays 136, 138 and the switching transistor 1.
The signal is routed to a remote control relay group 87 including 39, 140, etc. The relay group 87 controls the lighting equipment 94 and supplies power to the floor heater 96 via the control outlet 95 . The arithmetic processing circuit 135 includes a fire detector 90,
Information on detectors such as the security switch 91 is given. In addition, signals according to the operation of local switches such as hand switches 92 and 93 are also processed by the arithmetic processing circuit 1.
35.

According to the present invention, this substation board 72 may be provided individually for each room. These plurality of substation boards 72 are connected in cascade via a power main line 61 and an information transmission main line 62 that form a pair. A substation panel 72 provided in one room can control power load circuits such as lighting equipment 94 and a floor heater 96, and can also control similar power load circuits connected to other substation panels correspondingly. The load circuit can be controlled. Moreover, the lighting equipment 94 is connected to the substation panel 72 by detectors 90, 91 and hand switches 92, 93 provided on the substation panel 72.
In addition to being able to control the floor heater 96, it is also possible to control power load circuits corresponding to substation panels provided in other rooms.

FIG. 5A is a block diagram showing a specific configuration of modem 133. The signal from the coaxial cable 132 is waveformed by a filter 142 and received by a signal receiver 143, the output of which is waveform-shaped by a pulse shaping circuit 144.
34 to the arithmetic processing circuit 135. A signal from the arithmetic processing circuit 135 is led out from a line 134 to a signal transmitter 145 and from a filter 146 to a coaxial cable 132. In this way, a plurality of substation boards 72 can communicate with each other.

FIG. 5B is a block diagram showing a specific configuration of the arithmetic processing circuit 135. The line 134 is connected via a modem interface 147 to a logic circuit 148 realized by a microcomputer or the like.
connected to. Connected to this logic circuit 148 are a clock pulse generation circuit 149 for generating synchronous clock pulses, a read only memory 150, and a random access memory 151. The output from logic circuit 148 is relay drive circuit 1
52, which controls transistors 139, 140, etc. of relay group 87. Further, the detector receiving circuit 153 receives signals from the fire detector 90 and the security switch 91 and provides them to the logic circuit 148. Further, the local switch receiving circuit 154 receives signals from the local switches 92, 93, etc. and supplies them to the logic circuit 148.

The coaxial cable 141 of the branch 84 in the substation panel 72 is connected from the information transmission branch line 59 to the series unit 98 via the series unit. The series unit 98 can further be connected to a coaxial cable for information transmission. Further, an outlet 97 is provided to the power main line 61 via the line 54. Such a series unit 98
and the outlet 97 constitute an information outlet 99. Another substation board 73 is constructed in the same manner as the above-described substation board 72, and is connected to loads such as lighting equipment 102, power load circuits, and the like.

A television camera 199 and an interface 10 are installed at the ends of the branch line 51 and the information transmission branch line 56.
Integrated entrance unit 10 such as 0
1 is connected. A housing information panel 103 is connected to the ends of the branch line 52 and the information transmission branch line 57. An information outlet 104 is connected to the ends of the branch line 53 and the information transmission branch line 58, and the television receiver 10 is connected to the information outlet 104.
5 is connected. An information outlet 106 is connected to the ends of the branch line 55 and the information transmission branch line 60, and the housing information panel 10 is connected to the information outlet 106.
7 is connected.

The housing information board 103 includes a television receiver 108 for monitoring, operation keys 109 for operating loads, etc., a push button 110 for telephones, a status display 111 for displaying the detection mode of the detector, the load mode, etc. It also has a handset 112 that can be used as both a telephone and an inter-on. Operation key 10
9 also displays the operation mode. Housing information board 10
7 is also configured in the same manner as the housing information board 103.

By operating the operation keys 109 on the housing information panel 103, a visitor response for each room, a background music (BGM) broadcast, or a simultaneous broadcast such as "The meal is ready" is performed. There are also visitor monitors, video tape recorder (VTR) monitors, and television broadcast monitors. Furthermore, the load such as the television receiver 105, lighting lights 94, 102, floor heater 96, etc. is controlled, and the status of the load is monitored.
Further, abnormalities and the like are measured by detectors such as a fire detector 90 and a security switch 91.

FIG. 6 is a simplified block circuit diagram of another embodiment of the invention, in which parts corresponding to the embodiment shown in FIG. 3 are given the same reference numerals. A branch breaker 1 is installed between the branch line 51 and the branch box 69.
21 is provided. Further, a branch breaker 122 is provided between the branch line 52 and the branch box 70. By providing the branch breakers 121 and 122, the branch circuits of the branch lines 51 and 52 can be protected. Note that the branch breaker 121,
122 and the branch boxes 69, 70 may be formed integrally.

FIG. 7 is a simplified block circuit diagram of another embodiment of the invention, in which parts corresponding to the embodiment of FIG. 3 are given the same reference numerals. This shows a case where the indoor area is divided into a plurality of indoor areas, for example, a first floor indoor area and a second floor indoor area. The main breaker 6 is installed on the distribution board 63.
4 and the main line 61 are connected to each other.
3. A sub-main breaker 125 that connects the main breaker 64 and the main line 124, and an information transmission main line 6
2. A branch 127 is provided that connects the information transmission main line 126 and the amplifier 67 to each other. The sub-main breaker 123 is a breaker with high-speed breaking characteristics, and is connected to the branch breakers 89 and 89 of the sub-station boards 72 and 73.
128 backup shutdown is performed. Similarly to the sub-main breaker 123, the sub-main breaker 125 also performs backup breaking of the branch breaker 130 of the sub-station board 129.

FIG. 8 is a simplified block diagram of another embodiment of the invention. Although similar to the embodiment of FIG. 7, substation plates 72, 73, 12
9 with the branch breakers 89, 128, and 130 removed, and may be configured in this way.

As another embodiment of the present invention, the branch box of the substation board and the substation board may be separate bodies. Further, a plurality of branch breakers may be provided on the substation board. Furthermore, the amplifier 67 and the distribution board 63 may be separate bodies.

Effects As described above, according to the present invention, substation boards that perform arithmetic processing operations are connected in cascade via a pair of power lines and information transmission lines, and each substation board is equipped with a power load circuit or an information input circuit. An output circuit is connected, and each substation board controls a correspondingly connected power load circuit or information input/output circuit, and a correspondingly connected power load circuit or information input/output circuit to another substation board. This simplifies indoor wiring and makes wiring work easier. Furthermore, by cascading substation panels, it becomes possible to clearly understand the wiring status of indoor wiring. Further, in the present invention, a branch box is interposed between the power line and the information transmission line that form a pair, and the branch line and the information transmission main line are connected to the branch box, so that the branch line is connected to the power line. , and the information transmission trunk line will be connected to the information transmission line. Therefore, power and information can be branched out via the branch box, simplifying the wiring work.

[Brief explanation of the drawing]

1 is a block circuit diagram of the prior art, FIG. 2 is a perspective view of an embodiment of the present invention, FIG. 3 is a block circuit diagram corresponding to FIG. 2, and FIG. 4 is a concrete diagram of the branch box 69. 5A is a block diagram showing the specific structure of the substation board 72.
The figure is a block diagram showing a specific configuration of the modem 133, FIG. 5B is a block diagram showing a specific configuration of the arithmetic processing circuit 135, and FIGS. 6 to 8 are simplified diagrams of other embodiments of the present invention. FIG. 51-55...branch line, 56-60...information transmission branch line, 61,124...main line, 62,126
... Information transmission main line, 63 ... Distribution board, 64 ... Main breaker, 67 ... Amplifier, 69 to 71 ... Branch box, 72, 73, 129 ... Substation board, 113 ... Antenna.

Claims (1)

[Claims] 1 Substation board that performs calculation processing operations,
A power load circuit or an information input/output circuit is connected to each substation board through a pair of power lines and an information transmission line, and each substation board is connected to a correspondingly connected power load circuit or It controls the information input/output circuit and the power load circuit or information input/output circuit connected to other substation panels, and there are branch lines and information transmission main lines between the power line and the information transmission line. An indoor wiring system characterized in that a branch box to which a branch box is connected is interposed, and the branch box connects a power line and a branch line, and also connects an information transmission line and an information transmission main line.