JP2000244376A - Indoor power wiring - Google Patents

Abstract

PROBLEM TO BE SOLVED: To constitute a simple and inexpensive LAN by using a power line by allowing commercial power frequencies to pass through the upstream side of a branch point where wiring is branched into plug sockets, and connecting a filter which prevents signal frequencies for data transmission, and operating the display of a connection plug socket for an outdoor LAN at each plug socket. SOLUTION: Commercial power frequencies are allowed to pass through the upstream side of a terminal board 15 including a branch point 14 at which wiring is branched into m-pieces of plug sockets 13 for data transmission, and a filter 16 which prevents signal frequencies for data transmission is connected. The display of a connection plug socket for an outdoor LAN is displayed at each of the m pieces of plug sockets. Also, it is possible to provide a plug socket 18 not for data transmission which is branched from wiring between the branch point 14 and the plug sockets 13 at which the display for data transfer is operated to allow the commercial power frequencies to pass, and connected through a filter 17 which prevents the signal frequencies for data transmission.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] The present invention relates to a LAN (Local Area Network) using a power line. The present invention relates to power wiring for performing communication between computer devices connected to one house, one office, and other common power wiring.

[0002]

2. Description of the Related Art There is known a technique in which a modem is connected between a communication terminal of a computer device and a power line to use the power line as a simple communication line. In order to configure a simple LAN using a power line, a modem or the like having a connection terminal for a computer device at one end and a plug for plugging into a power line outlet at the other end is also commercially available. By connecting such a modem to two or more computer devices, data can be easily transferred between the computer devices using indoor power wiring without special signal line wiring. Can send and receive.

[0003]

However, when such a device is actually used, communication of signals between the computer devices is unstable. This is due to the effects of noise generated by the appliances connected to the power line, the generation of noise due to the turning on and off of those appliances, and the connection of appliances with extremely low resistance, such as electric heating appliances. As a result, the impedance between the pair of power lines may be reduced, and communication between the computer devices may be disabled. In particular, large electric heating appliances which are opened and closed automatically and intermittently by a thermostat have a serious disadvantage of intermittently interrupting communication signals during use of communication between computer devices.

[0004] For this reason, although communication using power lines is simple, few users use it.
LA with a large economical burden such as special wiring for indoor LAN, wireless LAN or optical LAN.
N.

[0005] In addition, since power lines are branched to a large number of houses and facilities via outdoor wiring, when a signal for data transmission is transmitted to the power line, not only the intended partner but also other computers are used. The device is able to intercept those signals and is not protected against security leaks.

The present invention has been made in such a background, and an object of the present invention is to provide a power wiring that can easily and stably form a LAN by using a power line. An object of the present invention is to provide a LAN which is economically small. SUMMARY OF THE INVENTION It is an object of the present invention to provide a power wiring capable of reducing leakage of a data signal to a LAN other than the LAN to which the wireless LAN belongs.

[0007]

According to the present invention, a filter for passing a commercial power frequency and blocking a signal frequency for data transmission is fixedly connected to a branch wiring portion of indoor power wiring in advance. The outlet whose data frequency is protected by the filter is displayed as an outlet for data transmission.

That is, the present invention provides a lead-in terminal of a commercial power supply, a plurality of n connection terminals for connecting a commercial power supply to an electric appliance placed indoors, the drop-in terminal and the n connection terminals. And indoor power wiring including a branch wiring for connecting m and m (2 ≦ 2) of the n connection terminals.
A filter for passing a commercial power supply frequency and blocking a signal frequency for data transmission is connected upstream of the branch point where the wiring branches off for m ≦ n), and each of the m outlets is connected to an indoor LAN. It is characterized by a display indicating that it is an outlet.

[0009] When the power line connection terminal other than the data transmission terminal is used by further branching from the wiring between the branch point and the outlet having the data transmission indication, the power line connection terminal is located upstream of the power line connection terminal. A filter is connected to pass another commercial power frequency and block a signal frequency for data transmission.

Further, as another configuration of the present invention, there are provided a lead-in terminal of a commercial power supply, a plurality of n connection terminals for connecting the commercial power supply to one indoor electric appliance, the lead-in terminal and the n. In the indoor power wiring including the branch wiring connecting the connection terminals to each other, at least one of the m (2 ≦ m ≦ n) outlets of the n connection terminals is provided with a commercial power supply upstream thereof. A filter for passing a frequency and blocking a signal frequency for data transmission is connected, and a connection circuit for connecting the downstream side of the filter to each other by operation is provided, and each of the m outlets is connected to an indoor LAN connection outlet. A configuration may be adopted in which a display indicating that there is a certain message is given.

With this configuration, it is possible to form a plurality of LANs in one indoor power wiring, and to switch between a case where the plurality of LANs are used independently and a case where the plurality of LANs are used commonly.

The connection circuit can include a switch that is opened and closed by operation.

[0013] The connection circuit may include a filter that blocks a commercial power supply frequency and passes a data transmission signal frequency. In that case, multiple LA
When N is connected to or disconnected from each other, the current of the power line does not pass through the connection circuit, and the present invention can be applied to the case of three-line power reception (200 V or 220 V middle point use wiring).

[0014]

(First Embodiment) FIG. 1 is a wiring system diagram of an indoor wiring according to an embodiment of the present invention. The indoor wiring includes a lead-in terminal 11 of a commercial power supply, a connection terminal 12 for branching the wiring to a plurality of n connection terminals for connecting the commercial power supply to an electric appliance disposed indoors, Terminal 11
And a number of branch wirings connecting the n connection terminals. A feature of the present invention is that a branch point 14 for branching wiring for m (2 ≦ m ≦ n) outlets 13 (m = 5 in FIG. 1) out of the n connection terminals.
A filter 16 for passing a commercial power frequency and blocking a signal frequency for data transmission is connected to an upstream side of the terminal board 15 including the terminal board 15, and an indication that each of the m outlets is a connection outlet for an indoor LAN. D is given.

The feature of the present invention is that the m outlets 13
The filter 16 is characterized in that the filter 16 isolates the other wiring from the signal frequency for data transmission, and that the m outlets 13 indicate that they are connection outlets of the indoor LAN.

Illustrating this display, the protective plate of the outlet is colored in a special color, the letter "D" (data) or "LAN" is displayed on the protective plate of the outlet, and a light-on display is provided by a light emitting diode. Do,
It can take various forms. While displaying is a simple technique, displaying is a very important element of the present invention. Such an indoor wiring without a display cannot be actually used for a LAN because it can be used as a LAN only when there is a display.

The wiring is further branched from the wiring between the branch point 14 and the outlet 13 having the data transmission indication, and is connected via a filter 17 which passes a commercial power supply frequency and blocks a data transmission signal frequency. Outlet 18 other than for data transmission. The power supplied to the outlet 18 is
6 passes through a region isolated for the signal frequency for data transmission, but when an application other than for data transmission is required downstream thereof, it is further isolated by another filter 17 and connected to the outlet 18. In this case, the influence of the electric appliance does not reach the m outlets 13.

With the wiring configured in this manner, noise generated by the cooking microwave appliance 20 connected to the outlet 19 other than for data transmission, noise generated by the lighting fluorescent lamp 22 connected via the switch 21, and the like. Is blocked by the filter 16 and does not directly reach the outlet 13 for data transmission.

Further, the fluctuation of impedance caused by the water heater 29 connected via the automatic opening / closing switch 28 does not affect the signal frequency for data transmission. That is, when the water heater 29 is activated, the value of the heater resistance becomes several ohms, and the data transmission signal transmitted to the power wiring is short-circuited by several ohms. Is prevented from flowing to the water heater 29. Electric heating appliances such as water heaters
Even if it is automatically opened and closed by the thermostat, the indoor wiring of the present invention has an effect that the communication utilization as a LAN is actually extremely smoothly performed.

(Embodiment of Filter) FIG.
It is a figure showing an example of the circuit composition of (or 17). This filter 16 shows a configuration example of a four-terminal balanced type. The frequency of the commercial power supply is 50 Hz or 60 Hz, and the frequency for data transmission is, for example, 1.2 kHz.
4 kHz, and 2 MHz in yet another example. The values of the capacitor C ₁ and the inductor L ₁ can be set according to the frequency used.

The filter for passing the frequency of the commercial power supply and blocking the signal frequency for data transmission can be realized in various other configurations. Particularly when one side of the power line is connected to the ground potential, it may be advantageous to design an unbalanced circuit as a filter for this purpose.

(Example of Use of Indoor LAN) FIG. 3 is a diagram for explaining an example of a connection configuration for forming an indoor LAN using the indoor power wiring of the present invention. Computer device 31
Is connected to a modem 33 via a LAN connection interface 32. In addition to a terminal 38 for extracting a LAN signal, the modem is branched and connected to an AC power outlet plug 35 via a filter circuit 34 for separating a LAN connection signal from a power frequency (50 Hz or 60 Hz). . The outlet plug 35 is inserted into the data transmission outlet 13 forming the indoor LAN described above. On the other hand, the other of the branches of the outlet plug 35 is for power supply, and supplies power to the modem via the POW, and further branches to supply power to the computer device 31.

On the other hand, another computer device 36, which is a communication partner through the indoor LAN,
9 is connected to a similar modem 37, and the modem 37
By inserting the AC power outlet plug 40 into the data transmission outlet 13 forming the indoor LAN described above, the two computer devices 31 and 36 are connected to each other via this indoor LAN. Become. The outlet 13 for data transmission is a filter 1
6, the signal frequency for data transmission is isolated from other wirings, so that it is not affected by noise entering from other wirings or short-circuit phenomenon due to low impedance.

(Second Embodiment) FIG. 4 is a block diagram of another embodiment of the present invention. In this example, two indoor LANs are formed on one indoor wiring, and a connection circuit 27 for connecting the two indoor LANs to each other is provided.

That is, a lead-in terminal 11 of a commercial power source, a connection terminal 12 for branching wiring to a plurality of n connection terminals for connecting the commercial power source to an electric appliance placed indoors, A terminal 11 and a number of branch wirings for connecting the n connection terminals are provided, and m (2 ≦ m ≦ n) outlets 13 (m = m in FIG. 1) of the n connection terminals are provided. Regarding 3), a filter 16 for passing a commercial power frequency and blocking a signal frequency for data transmission is connected to an upstream side of a terminal board 15 including a branch point 14 for branching a wiring. A display D indicating that the connection outlet is for a LAN is provided. This configuration is equivalent to the configuration of the embodiment described with reference to FIG. FIG.
In addition to this configuration, in addition to the above configuration, another filter 26 for passing the commercial power frequency and blocking the signal frequency for data transmission upstream of the terminal board 25 including the branch point 24 for branching the wiring is further provided for the two outlets 23. And terminal board 2
The connection circuit (SW) 27 is connected between one set of terminals 5 and one set of terminals of the terminal board 15.

FIG. 5 shows an example of the configuration of the connection circuit 27.
The connection circuit includes a filter (capacitor C ₂ and trans T) for passing the signal frequency for data transmission to prevent the utility frequency, switch S is opened and closed by the operation
₁ and the S _2. That is, the value of the capacitor C ₂ represents a sufficiently high impedance to the commercial power frequency is selected to exhibit a low impedance to the data transmission signal frequency. Transformer T does not act as a mutual inductance for commercial power frequency,
With respect to the signal frequency for data transmission, one having a function of a transformer due to mutual inductance acting is selected. Such a transformer can be designed by selecting the number of cores and windings according to the signal frequency for data transmission.

With such a configuration, in the indoor wiring connected as shown in FIG. 4, the first LAN using the outlet 13 and the second LAN using the outlet 23 are used.
An AN can be formed, and the two LANs can be commonly used by closing the switch of the connection circuit 27 by operation.

(Third Embodiment) FIG. 6 is a block diagram of still another embodiment of the present invention. This example is an example in a case where indoor wiring employs three-wire wiring. That is, two 100 V ACs whose phases are inverted are wired to the lead-in terminal 41 of the commercial power supply, and the midpoint thereof is set to the ground potential. In this wiring, it is possible to use each of them as an alternating current of 100 V.
It can be used as V AC. 200 V is wired to the large electric appliance 43, and the outer case of the electric appliance 43 is connected to the ground potential.

Even with such wiring, it is possible to form two LANs separated by filters 16 and 26, respectively, and use a circuit having the configuration shown in FIG. By doing so, the two LANs can be connected to each other and used as one LAN.

[0030]

As described above, according to the present invention,
An economical indoor LAN can be formed using power wiring. In addition, it is possible to reduce the influence of noise generated by the electric appliance and to avoid the influence of a decrease in the impedance of the signal frequency between the pair wires due to a heater appliance or the like that uses a large amount of electric power. When an indoor LAN is formed according to the present invention, the communication signal is less likely to leak to the outside, which is effective for the secret of communication.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a first embodiment of the present invention.

FIG. 2 is a configuration diagram of an embodiment of a filter.

FIG. 3 is a diagram showing an example of an indoor LAN formed using the indoor wiring according to the embodiment of the present invention.

FIG. 4 is a configuration diagram of a second embodiment of the present invention.

FIG. 5 is a configuration diagram of an embodiment of a connection circuit.

FIG. 6 is a configuration diagram of a third embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 11 Drop-in terminal 12 Connection terminal 13,23 Outlet for data transmission 14,24 Branch point 15,25 Terminal board 16,17,26 Filter 18 Outlet 31 used other than for data transmission 31,36 Computer device 32,39 Interface 33, 37 Modem 34 Filter circuit 35, 40 Outlet plug 38 LAN connection terminal

Claims (5)

[Claims] 1. A lead-in terminal of a commercial power supply, a plurality of n connection terminals for connecting a commercial power supply to an electric appliance placed indoors, and a connection between the lead-in terminal and the n connection terminals. In the indoor power wiring including a branch wiring, a commercial power supply frequency is passed to the m (2 ≦ m ≦ n) outlets of the n connection terminals at an upstream side of a branch point where the wiring branches. An indoor power wiring, wherein a filter for blocking a signal frequency for transmission is connected, and an indication that each of the m outlets is a connection outlet for an indoor LAN is given. 2. The wiring is further branched from a wiring between the branch point and the outlet having the data transmission display, and is connected via a filter that passes a commercial power supply frequency and blocks a data transmission signal frequency. The indoor power wiring according to claim 1, further comprising a connection terminal other than a connection terminal for data transmission. 3. A lead-in terminal of a commercial power supply, a plurality of n connection terminals for connecting a commercial power supply to an electric appliance placed indoors, and connecting the lead-in terminal and the n connection terminals. An indoor power wiring including a branch wiring, wherein at least one of m (2 ≦ m ≦ n) outlets out of the n connection terminals pass a commercial power supply frequency upstream thereof for data transmission. A filter for blocking the signal frequency of the filter is connected, and a connection circuit for connecting the downstream side of the filter to each other by operation is provided, and each of the m outlets is indicated as a connection outlet for an indoor LAN. Indoor power wiring, characterized in that: 4. The indoor power wiring according to claim 3, wherein the connection circuit includes a switch that is opened and closed by operation. 5. The indoor power wiring according to claim 3, wherein the connection circuit includes a filter that blocks a commercial power frequency and passes a signal frequency for data transmission.