JP2023114925A - Electric wire and insertion plug - Google Patents

Abstract

To more easily and more surely bring the ground potential closer to the potential of the earth.SOLUTION: An electric wire according to the present invention for transmitting the single-phase AC power from a commercial power source to an electrical instrument that reproduces or records a voice, or reproduces or records an image, comprises: a first insulated electric wire whose one end is connected to a voltage line of the commercial power source and other end is connected to the electrical instrument; a second insulated electric wire whose one end is connected to a neutral line of the commercial power source and other end is connected to the electrical instrument; a third insulated electric wire whose one end is connected to a ground line of the commercial power source and other end is connected to the electrical instrument; a fourth insulated electric wire whose one end is connected to the one end of the first insulated electric wire and other end is connected to the other end of the first insulated electric wire; and a resistor which is connected in series to the fourth insulated electric wire on the one end side of the fourth insulated electric wire.SELECTED DRAWING: Figure 2

Description

The present invention relates to electrical wires and entry plugs.

2. Description of the Related Art Conventionally, electrical equipment is grounded in order to prevent electric shock. In this case, by burying the ground rod in the ground, even if there is a leak in the housing of the electrical equipment, the leakage current will be released to the ground, keeping the electrical equipment's housing at the same potential as the ground and preventing electric shock. It is something to do. Such a dedicated ground is provided as a direct current circuit.

It is well known that grounding is important for audio equipment that reproduces sound and video equipment that reproduces and displays images.

Conventionally, in offices, homes, etc., electromagnetic interference suppression devices that suppress unnecessary electromagnetic waves generated by electronic devices that operate while connected to a general commercial power supply are used to suppress the neutral side (middle side) of the ground potential in the single-phase power supply of the commercial power supply. A polarity discriminating means for automatically discriminating between the hot side (active line) of the active part and the neutral side of the single-phase power source discriminated by the polarity discriminating means, and the electronic equipment that operates by being connected to the single-phase power source. An electromagnetic interference suppressing device has been proposed that has a ground point connecting means for connecting a conductive part or a conductive housing on the ground side of the device with a capacitor and a resistor (see, for example, Patent Document 1).

Also, a first wiring having one end connected to a line of AC commercial power supply and the other end connected to the power supply of the device, and a first wiring having one end connected to the neutral of the commercial power supply and the other end connected to the connecting the commercial power supply to the equipment by means of a second wiring having one end connected to the equipment power supply and a third wiring having one end open and the other end connected to the equipment ground; In a ground circuit for grounding, a first capacitor having one terminal connected to the second wiring, a second capacitor having one terminal connected to one end side of the third wiring, a third capacitor having one terminal connected to the other end of the third wiring, the other terminal of the first capacitor, the other terminal of the second capacitor, and the third capacitor; There is also a device in which the other terminal is connected (see Patent Document 2, for example).

JP-A-2002-262455 JP 2020-27754 A

Originally, electrical equipment that reproduces or records sound or reproduces or records images is designed and developed with the ground potential being the potential of the earth, which is 0V.

However, when actually measured, each electrical device that reproduces or records sound or reproduces or records images has its own ground potential. The ground potential of electrical equipment that reproduces or records sound or reproduces or records images does not become the earth potential, which is 0 V, which is the basis of the design (operation) of the equipment.

SUMMARY OF THE INVENTION The present invention has been made in view of such circumstances, and it is an object of the present invention to more easily and reliably bring the ground potential closer to the ground potential.

The wire of the first aspect of the present invention is a wire that transmits single-phase AC power from a commercial power supply to an electrical device that reproduces or records audio or reproduces or records images. a first insulated wire having one end connected to the voltage line of the commercial power supply and the other end connected to the electrical equipment; one end connected to the neutral wire of the commercial power supply; a second insulated wire connected to an electrical device; a third insulated wire having one end connected to a ground wire of a commercial power supply and the other end connected to the electrical device; a fourth insulated wire connected to one end of the first insulated wire and having the other end connected to the other end of the first insulated wire; and one of the fourth insulated wire and a first resistor connected in series with the fourth insulated wire at the end of the wire.

A first capacitor may further be provided connected in series with the first resistor and the fourth insulated wire at one end of the fourth insulated wire.

A first inductor may further be provided connected in series with the first resistor, the first capacitor and the fourth insulated wire at one end of the fourth insulated wire.

A plug to which one end of the first insulated wire, one end of the second insulated wire, one end of the third insulated wire and one end of the fourth insulated wire are connected Further plugs can be provided.

a fifth insulated wire having one end connected to one end of the second insulated wire and the other end connected to the other end of the second insulated wire; and a second resistor connected in series with the fifth insulated wire at one end of the insulated wire.

A second capacitor may further be provided connected in series with the second resistor and the fifth insulated wire at one end of the fifth insulated wire.

A second inductor may further be provided connected in series with the second resistor, the second capacitor and the fifth insulated wire at one end of the fifth insulated wire.

Wires can be connected to electrical equipment.

A plug according to a second aspect of the present invention is a plug to be inserted into a plug receptacle that supplies single-phase AC power of a commercial power supply, and when the plug is inserted into the plug receptacle, the voltage line of the commercial power supply a second blade connected to the neutral wire of the mains supply when inserted into the plug receptacle; and a ground wire of the mains supply when inserted into the plug receptacle. a ground electrode, a first terminal for connecting the first wire, the first terminal being connected to the first blade, and a second terminal for connecting the second wire a second terminal connected to the second blade; a third terminal for connecting a third wire, the third terminal being connected to the ground electrode; A first resistor having a terminal connected to the first terminal, and a fourth terminal for connecting a fourth wire, which is connected to the other terminal of the first resistor and a fourth terminal.

A first capacitor connected in series with the first resistor may further be provided between the first terminal and the fourth terminal.

A second resistor, one terminal of which is connected to the second terminal, and a fifth terminal for connecting a fifth wire, which is connected to the other terminal of the second resistor. A fifth terminal may also be provided.

A second capacitor connected in series with the second resistor may further be provided between the second terminal and the fifth terminal.

As described above, according to the present invention, the ground potential can be brought closer to the ground potential more easily and more reliably.

1 is a block diagram showing the configuration of an audio reproduction system including electric wires according to an embodiment of the present invention; FIG. 2 is a circuit diagram showing an example of the configuration of power cord 11. FIG. 4 is a diagram showing an example of the result of measuring the ground potential of an electrical device using the power cord 11; FIG. 2 is a circuit diagram showing an example of the configuration of power cord 101. FIG. FIG. 4 is a diagram showing the waveform of the voltage applied from the commercial power source, the waveform of the voltage applied to the resistor 71, and the waveform of the voltage applied to the resistor 71 and the capacitor 121 when the power cord 101 is used; . 5 is a diagram showing an example of the result of measuring the distortion factor of the main amplifier using the power cord 11; FIG. 2 is a circuit diagram showing an example of the configuration of power cord 201. FIG. FIG. 8 is a diagram showing an example of the configuration of the insertion plug 301. As shown in FIG.

Embodiments of the present invention will be described below, and the correspondence between the constituent elements of the present invention and the embodiments described in the detailed description of the invention is as follows. This description is to ensure that the embodiments supporting the invention are described in the detailed description of the invention. Therefore, even if there are embodiments that are described in the detailed description of the invention but are not described here as embodiments corresponding to the constituent elements of the present invention, they are It does not mean that the embodiment does not correspond to its constituent features. Conversely, even if an embodiment is described herein as corresponding to a constituent feature, that means that the embodiment does not correspond to constituent features other than that constituent feature. Nor is it something to do.

The wire of the first aspect of the present invention is a wire that transmits single-phase AC power from a commercial power supply to an electrical device that reproduces or records audio or reproduces or records images. A first insulated wire (for example, the wire 61 in FIG. 2) having one end connected to the voltage line of the commercial power supply and the other end connected to the electrical equipment, and one end connected to the commercial power supply A second insulated wire (e.g., the wire 62 in FIG. 2) connected to the neutral wire and having the other end connected to the electrical device, and one end connected to the ground wire of the commercial power supply, A third insulated wire (e.g., the wire 63 in FIG. 2) whose other end is connected to the electrical device and one end is connected to one end of the first insulated wire, a fourth insulated wire having its other end connected to the other end of said first insulated wire (e.g., wire 64 in FIG. 2); and a first resistor (eg, resistor 71 in FIG. 2) connected in series with the fourth insulated wire.

A plug according to a second aspect of the present invention is a plug to be inserted into a plug receptacle that supplies single-phase AC power of a commercial power source, wherein when the plug is inserted into the plug receptacle, the commercial power source A first blade (for example, flat blade 311 in FIG. 8) connected to a voltage line and a second blade (for example, in FIG. 8) connected to the neutral wire of the commercial power supply when inserted into the plug receiver. 8), a ground electrode (for example, ground electrode 313 in FIG. 8) that is connected to the ground wire of the commercial power supply when inserted into the plug receiver, and a first electric wire. A first terminal connected to the first blade (e.g., terminal 321 in FIG. 8) and a second terminal for connecting a second wire, A second terminal (e.g., terminal 322 in FIG. 8) connected to the second blade, and a third terminal for connecting a third wire, the third terminal being connected to the ground electrode. a third terminal (eg, terminal 323 in FIG. 8), a first resistor (eg, resistor 331 in FIG. 8) having one terminal connected to the first terminal, and a fourth wire and a fourth terminal (eg, terminal 324 in FIG. 8) connected to the other terminal of the first resistor.

An electric wire and an insertion plug according to embodiments of the present invention will be described below with reference to FIGS. 1 to 8. FIG.

FIG. 1 is a block diagram showing the configuration of an audio reproduction system including electric wires according to an embodiment of the present invention. The audio reproduction system shown in FIG. 1 consists of a table tap 13, a reproduction device 21, an amplification device 22 and loudspeakers 23-1 and 23-2. The table tap 13 is a portable outlet, also called a multi-tap or a power tap, and branches and connects AC commercial power. Power cords 11-1 to 11-3 are connected to the table tap 13, the reproducing device 21, and the amplifying device 22, respectively. AC commercial power is supplied.

One end of the power cord 11-3 is connected to the table tap 13. FIG. A plug 12-3 is connected to the other end of the power cord 11-3. The table tap 13 supplies alternating current commercial power to the plug receptacle of the table tap 13 when the insertion plug 12-3 is inserted into a plug receptacle of an outlet (not shown).

The plug 12-1 connected to one end of the power cord 11-1 is inserted into the plug receptacle of the table tap 13, and the other end is connected to the playback device 21, whereby the table tap 13 is connected. AC commercial power is supplied to the reproducing device 21 via the AC power source. The plug 12-2 connected to one end of the power cord 11-2 is inserted into the plug receptacle of the table tap 13, and the other end is connected to the amplifier 22, thereby connecting the table tap 13. AC commercial power is supplied to the amplifying device 22 via the AC power supply. Even if the other end of the power cord 11-1 or power cord 11-2 is directly connected to the reproducing device 21 or the amplifying device 22, it is connected via a connector and an AC (alternating current) inlet socket. You may do so. Also, the power cord 11-1 or the power cord 11-2 may be built in the reproducing device 21 or the amplifying device 22. FIG. For example, the power cord 11-1 or power cord 11-2 may connect from an AC inlet socket to the power supply or AC outlet of the equipment in the reproducing device 21 or the amplifying device 22. FIG.

The reproducing device 21 reproduces sound and outputs an audio signal to the amplifying device 22 . For example, playback device 21 is a compact disc player. Amplifying device 22 amplifies the signal level and power of the audio signal from reproducing device 21 . For example, the amplifier device 22 is a so-called pre-main amplifier, which is an acoustic device. The amplifying device 22 drives the loudspeakers 23-1 and 23-2 to output sounds according to the audio signals supplied from the reproducing device 21 through signal cables (not shown) to the loudspeakers 23-1 and 23-2. to emit sound.

In this manner, the power cords 11-1 to 11-3 transmit single-phase AC power from the commercial power supply to the electrical equipment that reproduces sound. The power cords 11-1 to 11-3 can also transmit single-phase alternating current power from a commercial power source to an electric device for recording voice, such as an audio recorder. Similarly, the power cords 11-1 to 11-3 are connected to electric equipment for reproducing or recording images, such as television receivers, television monitors, video disk players, and video recorders. It can also transmit power.

Hereinafter, the power cords 11-1 to 11-3 are simply referred to as the power cord 11 when there is no need to distinguish them individually. Further, hereinafter, the plugs 12-1 to 12-3 are simply referred to as the plugs 12 when there is no need to distinguish them individually.

An electrical device that reproduces or records sound is hereinafter referred to as an audio device. Also, hereinafter, an electrical device that reproduces or records an image will be referred to as a video device.

FIG. 2 is a circuit diagram showing an example configuration of the power cord 11, which is an example of the electric wire according to the embodiment of the present invention. The power cord 11 is an electric wire used for the purpose of supplying electric power. The power cord 11 transmits single-phase AC power from a commercial power supply to the audio equipment or video equipment.

For example, the power cord 11 may be a cable with an insulated wire that is further covered with a protective coating.

The power cord 11 includes an insertion plug 12 , a connector 41 , an insulated wire 61 , an insulated wire 62 , an insulated wire 63 , an insulated wire 64 , an insulated wire 65 , a resistor 71 and a resistor 72 . One end of each of insulated wire 61 , insulated wire 62 , insulated wire 63 , insulated wire 64 and insulated wire 65 is connected to insertion plug 12 . The insertion plug 12 is provided with terminals 81, 82 and 83 for connecting to electric wires. The terminal 81 is connected to a blade that is connected to the voltage line of the commercial power supply when the insertion plug 12 is inserted into the plug receptacle. Terminal 82 is connected to a blade that is connected to the neutral wire of the mains power supply when the entry plug 12 is inserted into the receptacle. Terminal 83 is connected to a blade that is connected to the ground wire of the commercial power source when plug 12 is inserted into the plug receptacle.

Note that the voltage line of the commercial power supply is a line to which a voltage is applied, a so-called ungrounded line, and is also called a line or a live line. A neutral wire of a commercial power supply is a wire serving as a reference potential, and is also called neutral. The grounding wire of a commercial power supply is a wire that connects a grounding rod for a grounding electrode buried in the ground through a grounding terminal on a distribution board, and is also called a grounding.

The connector 41 is a power supply plug-like connector that is inserted into an AC inlet socket provided in an acoustic device such as the reproducing device 21 or the amplifying device 22 for connection. The AC inlet socket is a receptacle-shaped joint for supplying commercial power to electrical equipment such as audio equipment or video equipment. When the connector 41 is inserted into the AC inlet socket, each blade of the AC inlet socket is inserted into each blade receiver of the connector 41 and connected.

The connector 41 is provided with terminals 91, 92 and 93 for connecting to electric wires. The terminal 91 is connected to one of the blade holders of the connector 41 that is connected to the voltage line of the commercial power source. The terminal 92 is connected to one of the blade receivers of the connector 41 that is connected to the neutral line of the commercial power supply. The terminal 93 is connected to one of the blade holders of the connector 41 that is connected to the ground wire of the commercial power source.

Each of the insulated wire 61, the insulated wire 62, the insulated wire 63, the insulated wire 64, and the insulated wire 65 is an electric wire in which a conductor core wire such as annealed copper is covered with an insulator such as vinyl or vinyl chloride. The insulated wire 61, the insulated wire 62, the insulated wire 63, the insulated wire 64, and the insulated wire 65 have the same length. For example, when the power cord 11 is a cable, each of the insulated wire 61, the insulated wire 62, the insulated wire 63, the insulated wire 64, and the insulated wire 65 can be an insulated wire covered with the sheath of the power cord 11. can.

One end of the insulated wire 61 is connected to the terminal 81 of the insertion plug 12 . One end of the insulated wire 62 is connected to the terminal 82 of the insertion plug 12 . One end of the insulated wire 63 is connected to the terminal 83 of the insertion plug 12 .

The other end of the insulated wire 61 is connected to the terminal 91 of the connector 41 . The other end of the insulated wire 62 is connected to the terminal 92 of the connector 41 . The other end of the insulated wire 63 is connected to the terminal 93 of the connector 41 .

One end of the insulated wire 64 is connected to one end of the insulated wire 61 . The other end of the insulated wire 64 is connected to the other end of the insulated wire 61 . That is, the insulated wire 64 is connected in parallel with the insulated wire 61 .

The resistor 71 is a so-called electrical resistance element having electrical resistance. The resistance value of the resistor 71 is 1Ω to 10KΩ. The resistor 71 is connected in series with the insulated wire 64 in the middle of the insulated wire 64 . That is, one terminal of the resistor 71 is connected to the plug 12 side of the insulated wire 64 , and the other terminal of the resistor 71 is connected to the connector 41 side of the insulated wire 64 . connected to the part of Also, the resistor 71 is connected in series to the insulated wire 64 at one end of the insulated wire 64 . In other words, the resistor 71 is connected in series with the insulated wire 64 at a portion closer to the insertion plug 12 than the center of the insulated wire 64 . It can also be said that the resistor 71 is connected in series with the insulated wire 64 on the side closer to the insertion plug 12 .

The resistor 72 is a so-called electrical resistance element having electrical resistance. The resistance value of the resistor 72 is 1Ω to 10KΩ. The resistance value of resistor 72 may be the same as or different from the resistance value of resistor 71 . The resistor 72 is connected in series with the insulated wire 65 in the middle of the insulated wire 65 . That is, one terminal of the resistor 72 is connected to the plug 12 side of the insulated wire 65 , and the other terminal of the resistor 72 is connected to the connector 41 side of the insulated wire 65 . connected to the part of Also, the resistor 72 is connected in series to the insulated wire 64 at one end of the insulated wire 64 . In other words, the resistor 72 is connected in series with the insulated wire 65 at a portion closer to the insertion plug 12 than the center of the insulated wire 65 . It can also be said that the resistor 72 is connected in series with the insulated wire 64 on the side closer to the entry plug 12 .

FIG. 3 is a diagram showing an example of the result of measuring the ground potential of the audio equipment using the power cord 11. In FIG. Equipment for measuring ground potential is not connected to earth ground. The ground potential of the audio equipment was measured by setting the measuring instrument to an alternating current range with reference to the grounded earth earth alone. The three voltage values shown in FIG. 3 were measured one hour apart. The ground potential of audio equipment or video equipment based on the earth ground depends on the type of audio equipment or video equipment to be connected, the state of the commercial power supply such as the load of other electrical equipment connected to the commercial power supply, the weather, Humidity, etc. will also change.

As shown in FIG. 3(A), when a commercial power supply is supplied using a conventional cord, the measured values of the ground potential of the audio equipment, which is a compact disc (CD) player A, with respect to earth ground are, respectively, 26.2V, 27.1V and 27.2V, and the average value of ground potential measurements was 26.8V.

On the other hand, as shown in FIG. 3A, when commercial power is supplied using the power cord 11, the measured value of the ground potential of the audio equipment, which is the compact disc player A, with respect to the ground is They were 24.8V, 24.1V and 23.9V, respectively, and the average value of the ground potential measurements was 24.3V.

As shown in FIG. 3(A), when a conventional cord is used to supply commercial power, the ground potential of the preamplifier A audio equipment is measured to be 31.3 V with respect to earth ground. , 31.9V and 31.1V, and the average ground potential measurement was 31.4V.

On the other hand, as shown in FIG. 3A, when commercial power is supplied using the power cord 11, the measured value of the ground potential of the audio equipment, which is the preamplifier A, with respect to the ground is They were 24.6V, 24.4V and 25.1V, respectively, and the average value of the ground potential measurements was 24.7V.

As shown in FIG. 3(A), when a conventional cord is used to supply commercial power, the measured ground potential of the audio equipment, main amplifier A, is 57.8 V with respect to earth ground. , 60.3V and 58.2V, and the average value of ground potential measurements was 58.8V.

On the other hand, as shown in FIG. 3A, when commercial power is supplied using the power cord 11, the measured value of the ground potential of the audio equipment, which is the main amplifier A, with respect to the ground is They were 39.3V, 38.8V and 37.9V, respectively, and the average value of the ground potential measurements was 38.7V.

As shown in FIG. 3(A), a conventional cord is used to supply commercial power, compact disc player A, preamplifier A and main amplifier A are connected by signal cables and radiated from the loudspeaker. When turned on, the measured ground potentials of compact disc player A, preamplifier A and main amplifier A with respect to earth ground are 32.1 V, 33.4 V and 32.9 V, respectively. The average value of the measured values was 32.8V.

On the other hand, as shown in FIG. 3A, commercial power is supplied using a power cord 11, and compact disc player A, preamplifier A and main amplifier A are connected with signal cables. , the measured ground potentials of compact disc player A, preamplifier A and main amplifier A with respect to earth ground are 24.9 V, 25.6 V and 24.8 V, respectively, when emitted from a loudspeaker. and the average value of ground potential measurements was 25.1V.

As shown in FIG. 3B, when a conventional cord is used to supply commercial power, the ground potential of the compact disc player A is measured to be 27.8 V with respect to the earth ground. , 27.1V and 26.8V, and the average ground potential measurement was 27.2V.

On the other hand, as shown in FIG. 3B, when commercial power is supplied using the power cord 11, the measured value of the ground potential of the audio equipment, which is the compact disc player A, with respect to the ground is They were 25.1V, 25.3V and 24.4V, respectively, and the average value of the ground potential measurements was 24.9V.

As shown in FIG. 3B, when the conventional cord is used to supply commercial power, the measured ground potential of the preamplifier B audio equipment with respect to earth ground is 38.2 V, respectively. , 38.9V and 39.5V, and the average ground potential measurement was 38.9V.

On the other hand, as shown in FIG. 3B, when commercial power is supplied using the power cord 11, the measured value of the ground potential of the audio equipment, which is the preamplifier B, with respect to the ground is They were 32.7V, 31.7V and 32.1V, respectively, and the average value of the ground potential measurements was 32.2V.

As shown in FIG. 3(B), when a conventional cord is used to supply commercial power, the measured ground potential of the audio equipment, which is the main amplifier B, is 29.9 V with respect to earth ground. , 30.7V and 31.2V, and the average ground potential measurement was 30.6V.

On the other hand, as shown in FIG. 3B, when commercial power is supplied using the power cord 11, the measured value of the ground potential of the audio equipment, which is the main amplifier B, with respect to the ground is They were 26.3V, 27.2V and 26.6V, respectively, and the average value of the ground potential measurements was 26.7V.

As shown in FIG. 3B, a conventional cord is used to provide commercial power, compact disc player A, preamplifier B and main amplifier B are connected with signal cables to radiate from the loudspeaker. When turned on, the measured ground potentials of Compact Disc Player A, Preamplifier A and Main Amplifier A are 33.5 V, 33.9 V and 34.2 V, respectively, with respect to earth ground. The average value of the measured values was 33.9V.

On the other hand, as shown in FIG. 3B, commercial power is supplied using a power cord 11, and compact disc player A, preamplifier B and main amplifier B are connected with signal cables. , the measured ground potentials of compact disc player A, preamplifier A and main amplifier A with respect to earth ground when emitted from a loudspeaker are 27.0 V, 26.8 V and 26.5 V, respectively. and the average value of ground potential measurements was 26.8V.

As described above, even if the audio equipment is used alone or connected with a signal cable, the ground potential of the audio equipment using the power cord 11 is lower than that of the conventional cord, and the ground potential of the audio equipment is lower than that of the conventional cord. closer to the potential of

FIG. 3 shows the measurement results of the ground potential in the case of audio equipment that reproduces sound. Similar results were obtained with video equipment that played or recorded.

FIG. 4 is a circuit diagram showing an example of the configuration of power cord 101, which is another example of the electric wire according to the embodiment of the present invention. Parts similar to those shown in FIG. 2 are denoted by the same reference numerals, and description thereof will be omitted. The power cord 101 is an electric wire used for the purpose of supplying electric power. The power cord 101 transmits single-phase AC power from a commercial power supply to the audio equipment or video equipment.

For example, power cord 101 may be a cable with an insulated wire that is further covered with a protective coating.

The power cord 101 includes an insertion plug 12, a connector 41, an insulated wire 61, an insulated wire 62, an insulated wire 63, an insulated wire 64, an insulated wire 65, a resistor 71, a resistor 72, a capacitor 121 and a capacitor 122. ing.

Capacitor 121 is an electrically passive element that stores and releases electric charge. Capacitor 121 is also referred to as a capacitor. The capacitor 121 has a predetermined capacitance. For example, the capacitance of the capacitor 121 is set to 0.01 μF to 1 μF. Capacitor 121 is connected in series with resistor 71 and insulated wire 64 in the middle of insulated wire 64 . That is, one terminal of the capacitor 121 is connected to the other terminal of the resistor 71, and the other terminal of the capacitor 121 is connected to the portion of the insulated wire 64 on the connector 41 side. Also, the capacitor 121 is connected in series with the resistor 71 and the insulated wire 64 at one end of the insulated wire 64 . In other words, the capacitor 121 is connected in series with the resistor 71 and the insulated wire 64 at a portion closer to the insertion plug 12 than the center of the insulated wire 64 . It can also be said that the capacitor 121 is connected in series with the resistor 71 and the insulated wire 64 on the side closer to the insertion plug 12 .

Capacitor 122 is an electrically passive device that stores and releases electrical charge. Capacitor 122 is also referred to as a capacitor. The capacitor 122 has a predetermined capacitance. For example, the capacitance of the capacitor 122 is set to 0.01 μF to 1 μF. The capacitance of capacitor 122 may be the same as or different from the capacitance of capacitor 121 . Capacitor 122 is connected in series with resistor 72 and insulated wire 65 in the middle of insulated wire 65 . That is, one terminal of the capacitor 122 is connected to the other terminal of the resistor 72, and the other terminal of the capacitor 122 is connected to the portion of the insulated wire 65 on the connector 41 side. Also, the capacitor 122 is connected in series with the resistor 72 and the insulated wire 65 at one end of the insulated wire 65 . In other words, the capacitor 122 is connected in series with the resistor 72 and the insulated wire 65 at a portion closer to the insertion plug 12 than the center of the insulated wire 65 . It can also be said that the capacitor 122 is connected in series with the resistor 72 and the insulated wire 65 on the side closer to the insertion plug 12 .

As an example, when the conventional cord was used to supply commercial power, the ground potential of the semiconductor preamplifier was measured to be 27.3 V, whereas the power cord 101 was used to supply commercial power. As supplied, the solid state preamplifier ground potential was measured to be 19.1V. In another example, when the commercial power was supplied using the conventional cord, the measured value of the ground potential of the semiconductor preamplifier was 39.6 V, while the power cord 101 was used. When a commercial power supply was supplied from the power supply, the ground potential of the semiconductor preamplifier was measured to be 33.2V.

FIG. 5 shows the waveform of the voltage applied from the commercial power source when the power cord 101 is used, the waveform of the voltage applied to the resistor 71, and the waveform of the voltage applied to the resistor 71 and the capacitor 121. FIG. 4 is a diagram showing;

Graph A shown in FIG. 5A shows the waveform of the voltage applied from the commercial power supply, and graph B shows the waveform of the voltage applied to the resistor 71 . Note that the scale of the vertical axis of graph A and the scale of the vertical axis of graph B are different.

Graph A shown in FIG. 5B shows the waveform of the voltage applied from the commercial power supply, and graph C shows the voltage applied to the resistor 71 and the capacitor 121 connected in series, that is, the resistance 4 shows the waveform of the voltage between the terminal on the insertion plug 12 side among the terminals of the capacitor 71 and the terminal on the connector 41 side among the terminals of the capacitor 121. FIG. Note that the scale of the vertical axis of graph B and the scale of the vertical axis of graph C are the same.

As shown in Graph B, insulated wire 64 has a charge injected that produces a voltage of 6-8 mV. That is, a minute current is flowing into the insulated wire 64 .

In other words, in a power cord that normally transmits power from a commercial power source to an audio or video device, current flows from the commercial power source to the audio or video device, but the unwanted current generated by the audio or video device is It is thought that the current also flows and raises the ground potential of the audio or video equipment.

From the graphs B and C, the capacitor 121 absorbs the charge that has flowed into the insulated wire 64, and reduces the voltage due to the charge generated in the insulated wire 64 to 0.15 mV to 0.2 mV (1/30 to 1/50). It is considered that the energy due to the electric charge is absorbed by the resistor 71 acting as a load attenuating the electric charge.

The charge or minute current flowing into the insulated wire 64 is considered to be rectification noise from the power supply of the audio equipment or video equipment.

Since the plug 12 is connected to a commercial power supply, it is electrically connected to a pole-mounted transformer, and the connector 41 is connected to audio equipment or video equipment, so it is usually connected to a power supply transformer of the audio equipment or video equipment. is considered to be electrically connected to Then, the power cord 11 or the power cord 101 is connected to the pole transformer and the transformer of the power supply section.

On the secondary side of the transformer of the power supply unit of the audio equipment or the video equipment, the sinusoidal voltage is turned on and off at predetermined timings by the load of the audio equipment or the video equipment. Also, if the audio or video equipment generates a time-varying signal or drives a time-varying load, the load on the power supply of the audio or video equipment will fluctuate over time. Become. In this way, if a high-frequency component is generated in the current on the secondary side of the transformer of the power supply section of the audio equipment or video equipment, commercial current from the audio equipment or video equipment side may flow into the primary side of the transformer of the power supply section of the electrical equipment. It is considered that the current that flows to the power supply side includes a high-frequency component. For example, a current containing such high-frequency components becomes rectification noise.

In this way, in audio equipment or video equipment, it is considered that an unnecessary minute current is generated in the power supply section inside the equipment.

When commercial power is supplied to audio equipment or video equipment with conventional cords, the resistance of conventional cords is about 10mΩ to 20mΩ, and the conductor of the core wire of the cord is the transformer of the pole transformer and the power supply part of the audio equipment or video equipment. rectification noise cannot be attenuated or absorbed.

On the other hand, when commercial power is supplied to the audio equipment or the video equipment through the power cord 11 or the power cord 101, the resistor 71 or the resistor 71 and the capacitor 121 or the resistor 72 or the resistor 72 and the capacitor 122 are connected to the audio equipment or the video equipment. attenuates and absorbs rectified noise from the power supply of the audio or visual equipment, thereby reducing rectified noise originating in the audio or visual equipment power supply and returning to the audio or visual equipment power supply, thereby reducing the grounding of the audio or visual equipment. It is believed that the potential is lowered.

A resistor 71 or a resistor 71 and a capacitor 121 or a resistor 72 or a resistor 72 and a capacitor 122 are connected in series to a portion of the insulated wire 64 or the insulated wire 65 closer to the insertion plug 12 . Then, when the resistor 71 or the resistor 71 and the capacitor 121 or the resistor 72 or the resistor 72 and the capacitor 122 are connected in series to the portion of the insulated wire 64 or the insulated wire 65 closer to the connector 41 , or in the case of connecting in series to the central portion of the insulated wire 64 or the insulated wire 65, it has been confirmed by experiments that the ground potential of the audio equipment or video equipment is further lowered.

The portion of the insulated wire 64 or the insulated wire 65 from the connector 41 to the resistor 71 or the resistor 71 and the capacitor 121 or the resistor 72 or the resistor 72 and the capacitor 122 accumulates electric charge due to rectification noise and resists the noise due to this electric charge. It is believed that resistor 71 or resistor 71 and capacitor 121 or resistor 72 or resistor 72 and capacitor 122 attenuate or absorb more efficiently.

Thus, the electric wire of the present invention has a function of absorbing unnecessary current generated in the audio equipment or the video equipment, thereby making the ground potential of the audio equipment or the video equipment closer to the ground potential.

FIG. 6 is a diagram showing an example of the result of measuring the distortion factor of the main amplifier using the power cord 11. In FIG. FIG. 6A shows the waveform of the output when a commercial power supply is supplied to the main amplifier using a conventional code and a sine wave with an amplitude of 1 V and a frequency of 1 KHz is input by FFT (Fast Fourier Transform) It is a figure which shows the result of having analyzed. FIG. 6B shows the result of FFT analysis of the output waveform when the main amplifier is supplied with commercial power using the power cord 101 and a sine wave with an amplitude of 1 V and a frequency of 1 KHz is input. It is a figure which shows.

When commercial power was supplied using the conventional cord, the total harmonic distortion was 1.00%. The strain rate was 0.98%. Further, it was confirmed that second harmonic distortion was also reduced when commercial power was supplied using the power cord 101 .

As shown in the portion circled by the dotted line in FIG. 6A, more distortion components appear at the rise and fall.

It is considered that the use of the power cord 101 lowered the total harmonic distortion factor because the ground potential was lowered.

FIG. 7 is a circuit diagram showing an example of the configuration of power cord 201, which is still another example of the electric wire according to the embodiment of the present invention. Parts similar to those shown in FIG. 4 are denoted by the same reference numerals, and descriptions thereof will be omitted. The power cord 201 is an electric wire used for the purpose of supplying electric power. The power cord 201 transmits single-phase AC power from a commercial power supply to the audio equipment or video equipment.

For example, the power cord 201 can be a cable with an insulated wire that is further covered with a protective coating.

The power cord 201 includes an insertion plug 12, a connector 41, an insulated wire 61, an insulated wire 62, an insulated wire 63, an insulated wire 64, an insulated wire 65, a resistor 71, a resistor 72, a capacitor 121, a capacitor 122, an inductor 221 and a It is configured including an inductor 222 .

Inductor 221 is an electrically passive element that stores energy in the magnetic field created by the flowing current. The inductor 221 has a predetermined inductance. For example, the inductance of the inductor 221 is set to 0.01H to 1H. The inductor 221 is connected in series with the resistor 71 , the capacitor 121 and the insulated wire 64 in the middle of the insulated wire 64 . That is, one terminal of the inductor 221 is connected to the insertion plug 12 side of the insulated wire 64 , and the other terminal of the inductor 221 is connected to one terminal of the resistor 71 . The inductor 221 is connected in series with the resistor 71 , the capacitor 121 and the insulated wire 64 at one end of the insulated wire 64 . In other words, inductor 221 is connected in series with resistor 71 , capacitor 121 , and insulated wire 64 at a portion closer to insertion plug 12 than the center of insulated wire 64 . It can also be said that the inductor 221 is connected in series with the resistor 71 , the capacitor 121 and the insulated wire 64 on the side closer to the insertion plug 12 .

Inductor 222 is an electrically passive element that stores energy in the magnetic field created by the flowing current. The inductor 222 has a predetermined inductance. For example, the inductance of the inductor 222 is set to 0.01H to 1H. The inductance of inductor 222 may be the same as or different from the inductance of inductor 221 . The inductor 222 is connected in series with the resistor 72 , the capacitor 122 and the insulated wire 65 in the middle of the insulated wire 65 . That is, one terminal of the inductor 222 is connected to a portion of the insulated wire 65 on the insertion plug 12 side, and the other terminal of the inductor 222 is connected to one terminal of the resistor 72 . The inductor 222 is connected in series to the resistor 72 , the capacitor 122 and the insulated wire 65 at one end of the insulated wire 65 . In other words, inductor 222 is connected in series with resistor 72 , capacitor 122 , and insulated wire 65 at a portion closer to insertion plug 12 than the center of insulated wire 65 . It can also be said that the inductor 222 is connected in series with the resistor 72 , the capacitor 122 and the insulated wire 65 on the side closer to the insertion plug 12 .

Thus, according to the power cord 11, the power cord 101, or the power cord 201, the ground potential of the electrical equipment that reproduces or records audio or reproduces or records images can be more easily and reliably set. , can be brought closer to the potential of the ground.

So-called audio or audio-visual power cords use expensive precious metals for contacts and wires, but power cord 11, power cord 101 or power cord 201 does not require expensive materials and is simpler. and cheaper to make.

In addition, compared to general audio or audio-visual power cords, a finer wire rod can provide the same or better functions and performance, so that the cord can be made flexible and easy to use. The break-in time required for new products is also shortened.

Next, the insertion plug 301 will be explained. FIG. 8 is a diagram showing an example of the configuration of the insertion plug 301. As shown in FIG. FIG. 8A is a cross-sectional plan view showing the horizontal cross-sectional structure of the insertion plug 301. FIG. FIG. 8B is a side cross-sectional view showing the configuration of the vertical cross-section of the insertion plug 301. FIG. FIG. 8(C) is a rear cross-sectional view showing the structure of the cross section indicated by line AA' in FIG. 8(B).

8(A) to 8(C), the direction in which the plug 301 is inserted into the plug receptacle is indicated by the X-axis as the front-rear direction, and the Z-axis as the up-down direction. is shown on the Y-axis as the direction of .

By connecting a predetermined number of insulated wires to the insertion plug 301, a power cord having the same configuration as the power cord 101 can be obtained. The insertion plug 301 is used by being inserted into and removed from a plug receptacle that supplies single-phase AC power of a commercial power source.

The insertion plug 301 includes a body 305 , a flat blade 311 , a flat blade 312 , a ground electrode 313 , a terminal 321 , a terminal 322 , a terminal 323 , a terminal 324 , a terminal 325 , a resistor 331 , a resistor 332 , a capacitor 341 and a capacitor 342 . It is composed including Body 305 is a housing that supports flat blade 311, flat blade 312, ground electrode 313, terminal 321, terminal 322, terminal 323, terminal 324, terminal 325, resistor 331, resistor 332, capacitor 341 and capacitor 342. .

The flat blade 311 is connected to the voltage line of the commercial power supply when the insertion plug 301 is inserted into a plug receptacle that supplies single-phase AC power of the commercial power supply. The flat blade 312 is connected to the neutral wire of a commercial power supply when the insertion plug 301 is inserted into a plug receptacle that supplies single-phase AC power of a commercial power supply. The ground electrode 313 is connected to the ground line of the commercial power supply when the insertion plug 301 is inserted into a plug receptacle that supplies single-phase AC power of the commercial power supply.

Terminals 321, 322, 323, 324, and 325 are terminals for electrically and mechanically connecting wires, respectively. For example, the terminals 321 , 322 , 323 , 324 and 325 are screw terminals, screwless terminals that are automatically connected when the core wire (conductor) of an electric wire is inserted, and blade-type terminals. can be

Terminal 321 is connected to flat blade 311 . A terminal 321 is a terminal for connecting an electric wire 351 that is connected to a voltage line of a commercial power supply. A terminal 322 is connected to the flat blade 312 . The terminal 322 is a terminal for connecting an electric wire 352 connected to the neutral line of the commercial power supply. Terminal 323 is connected to ground electrode 313 . The terminal 323 is a terminal for connecting an electric wire 353 that is connected to the ground wire of the commercial power supply.

The terminal 324 is a terminal for connecting an electric wire 354 connected to the voltage line of the commercial power supply. The end of the wire 354 not connected to the terminal 324 is connected to the end of the wire 351 not connected to the terminal 321 .

The terminal 325 is a terminal for connecting an electric wire 355 connected to the neutral line of the commercial power supply. The end of the wire 355 not connected to the terminal 325 is connected to the end of the wire 352 not connected to the terminal 322 .

Each of the resistors 331 and 332 is a so-called electrical resistance element having electrical resistance. The resistance values of the resistors 331 and 332 are 1Ω to 10KΩ, respectively. Note that the resistance value of the resistor 332 may be the same as or different from the resistance value of the resistor 331 .

Capacitor 341 and capacitor 342 are electrically passive elements that store and release electric charge, respectively. Capacitor 341 and capacitor 342 are also referred to as capacitors, respectively. The capacitances of the capacitors 341 and 342 are set to 0.01 μF to 1 μF, respectively. Note that the capacitance of the capacitor 342 may be the same as or different from the capacitance of the capacitor 341 .

One terminal of resistor 331 is connected to terminal 321 . The other terminal of resistor 331 is connected to one terminal of capacitor 341 . The other terminal of capacitor 341 is connected to terminal 324 . That is, resistor 331 and capacitor 341 are connected in series between terminals 321 and 324 . One terminal of resistor 332 is connected to terminal 322 . The other terminal of resistor 332 is connected to one terminal of capacitor 342 . The other terminal of capacitor 342 is connected to terminal 325 . That is, resistor 332 and capacitor 342 are connected in series between terminals 322 and 325 .

Note that the capacitor 341 may be omitted and the other terminal of the resistor 331 may be connected to the terminal 324 . Also, the capacitor 342 may be omitted and the other terminal of the resistor 332 may be connected to the terminal 325 .

Also, the insertion plug 301 may be of another type such as a hook type or a retaining type.

Furthermore, in addition to resistor 331 and capacitor 341 , an inductor may be connected in series with resistor 331 and capacitor 341 between terminals 321 and 324 . In addition to resistor 332 and capacitor 342 , an inductor may be connected in series with resistor 332 and capacitor 342 between terminals 322 and 325 .

Thus, the power cord 11 carries single-phase AC power from the mains supply to electrical equipment that reproduces or records sound or reproduces or records images. One end of the insulated wire 61 is connected to a voltage line of a commercial power supply, and the other end of the insulated wire 61 is connected to electrical equipment. One end of the insulated wire 62 is connected to the neutral wire of a commercial power supply, and the other end of the insulated wire 62 is connected to electrical equipment. One end of the insulated wire 63 is connected to a ground wire of a commercial power supply, and the other end of the insulated wire 63 is connected to an electric device. One end of the insulated wire 64 is connected to one end of the insulated wire 61 , and the other end of the insulated wire 64 is connected to the other end of the insulated wire 61 . The resistor 71 is connected in series to the insulated wire 64 at one end of the insulated wire 64 .

Capacitor 121 is connected in series to resistor 71 and insulated wire 64 at one end of insulated wire 64 .

The inductor 221 is connected in series with the resistor 71 , the capacitor 121 and the insulated wire 64 at one end of the insulated wire 64 .

One end of the insulated wire 61 , one end of the insulated wire 62 , one end of the insulated wire 63 and one end of the insulated wire 64 are connected to the insertion plug 12 .

One end of the insulated wire 65 is connected to one end of the insulated wire 62 , and the other end of the insulated wire 65 is connected to the other end of the insulated wire 62 . The resistor 72 is connected in series to the insulated wire 65 at one end of the insulated wire 65 .

Capacitor 122 is connected in series with resistor 72 and insulated wire 65 at one end of insulated wire 65 .

The inductor 222 is connected in series with the resistor 72 , the capacitor 122 and the insulated wire 65 at one end of the insulated wire 65 .

A power cord 11 can be connected to the electrical equipment.

The plug 301 is a plug that is inserted into a plug receptacle that supplies single-phase AC power of a commercial power source. The flat blade 311 is connected to the voltage line of the commercial power source when the insertion plug 301 is inserted into the plug receptacle. The flat blade 312 is connected to the neutral wire of the commercial power supply when the insertion plug 301 is inserted into the plug receptacle. The ground electrode 313 is connected to the ground line of the commercial power supply when the insertion plug 301 is inserted into the plug receptacle. The terminal 321 is a terminal for connecting the electric wire 351 and is connected to the flat blade 311 . The terminal 322 is a terminal for connecting the electric wire 352 and is connected to the flat blade 312 . The terminal 323 is a terminal for connecting the electric wire 353 and is connected to the ground electrode 313 . One terminal of resistor 331 is connected to terminal 321 . Terminal 324 is a terminal for connecting electric wire 354 and is connected to the other terminal of resistor 331 .

A capacitor 341 connected in series with a resistor 331 may also be provided between terminals 321 and 324 .

One terminal of resistor 332 is connected to terminal 322 . Terminal 325 is a terminal for connecting electric wire 355 and is connected to the other terminal of resistor 332 .

A capacitor 342 connected in series with resistor 332 may also be provided between terminals 322 and 325 .

Moreover, the embodiments of the present invention are not limited to the above-described embodiments, and various modifications can be made without departing from the gist of the present invention.

11, 11-1 to 11-3, 101 and 201 power cord, 12, 12-1 to 12-3 and 301 insertion plug, 41 connector, 61 to 65 edge wire, 71 and 72 resistor, 81 to 83 and 91 to 93 terminals, 121 and 122 capacitors, 221 and 222 inductors, 305 body, 311 and 312 flat blades, 313 ground poles, 321 to 325 terminals, 331 and 332 resistors, 341 and 342 capacitors

Claims (12)

In wires carrying single-phase a.c. power from the mains supply to electrical equipment that reproduces or records sound or reproduces or records images,
a first insulated wire having one end connected to the voltage line of the commercial power supply and the other end connected to the electric device;
a second insulated wire having one end connected to the neutral wire of the commercial power supply and the other end connected to the electrical equipment;
a third insulated wire having one end connected to the ground wire of the commercial power supply and the other end connected to the electric device;
a fourth insulated wire having one end connected to one end of the first insulated wire and the other end connected to the other end of the first insulated wire;
and a first resistor connected in series to the fourth insulated wire on one end side of the fourth insulated wire. In the electric wire according to claim 1,
A wire further including a first capacitor connected in series to the first resistor and the fourth insulated wire on one end side of the fourth insulated wire. In the electric wire according to claim 2,
A wire further comprising a first inductor connected in series to the first resistor, the first capacitor and the fourth insulated wire on one end side of the fourth insulated wire. In the electric wire according to any one of claims 1 to 3,
One end of the first insulated wire, one end of the second insulated wire, one end of the third insulated wire and one end of the fourth insulated wire are connected. The electrical wire further comprising a bayonet plug. In the electric wire according to any one of claims 1 to 4,
a fifth insulated wire having one end connected to one end of the second insulated wire and the other end connected to the other end of the second insulated wire;
and a second resistor connected in series to the fifth insulated wire on one end side of the fifth insulated wire. In the electric wire according to claim 5,
A wire further comprising a second capacitor connected in series to the second resistor and the fifth insulated wire on one end side of the fifth insulated wire. In the electric wire according to claim 6,
A wire further comprising a second inductor connected in series to the second resistor, the second capacitor and the fifth insulated wire on one end side of the fifth insulated wire. An electric device to which the electric wire according to any one of claims 1 to 7 is connected. In plugs that are inserted into plug receptacles that supply single-phase AC power from commercial power sources,
a first blade connected to the voltage line of the commercial power supply when inserted into the plug receiver;
a second blade connected to the neutral wire of the commercial power supply when inserted into the plug receptacle;
a ground electrode connected to the ground line of the commercial power supply when inserted into the plug receiver;
a first terminal for connecting a first wire, the first terminal being connected to the first blade;
a second terminal for connecting a second wire, the second terminal being connected to the second blade;
a third terminal for connecting a third electric wire, the third terminal being connected to the ground electrode;
a first resistor having one terminal connected to the first terminal;
and a fourth terminal for connecting a fourth wire, the fourth terminal being connected to the other terminal of the first resistor. A plug according to claim 9, wherein
The entry plug further comprising a first capacitor connected in series with the first resistor between the first terminal and the fourth terminal. 11. The plug according to claim 9 or claim 10,
a second resistor having one terminal connected to the second terminal;
a fifth terminal for connecting a fifth wire, the fifth terminal being connected to the other terminal of the second resistor. 12. The attachment plug according to claim 11, wherein
The entry plug further comprising a second capacitor connected in series with the second resistor between the second terminal and the fifth terminal.

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