JP5787706B2 - Audio cable - Google Patents

Description

  The present invention relates to an audio cable that can obtain excellent acoustic characteristics by improving electrical characteristics.

  As one of the audio cables, for example, there is a cable with an RCA plug for connecting a sound source such as a CD player and an amplifier. The RCA plug is also called a pin plug. Since the RCA plug is manufactured according to a predetermined standard, the outer diameter is limited. Accordingly, the outer diameter of the cable is also limited, and thus the amount of the conductor in the cable, more strictly speaking, the conductor Cross-sectional area is limited. If the amount of conductor in the cable is small, the electrical characteristics deteriorate and the sound quality deteriorates, such as an increase in electrical resistance and transmission loss. In the audio cable, the greater the cross-sectional area of the conductor, more precisely, the longer the total outer peripheral length of the conductor in the cross-section, the lower the electrical resistance, and an improvement in sound quality can be expected. However, if the standard of the plug is defined like a cable with an RCA plug, the amount of conductor is limited, so the size of the conductor cross-sectional area is limited, and depending on the quality and characteristics of the audio cable, the sound quality can be improved. It becomes an obstruction factor. Since the electrical characteristics deteriorate as the cable becomes longer, the length of the cable is also limited in order to reproduce sound with good sound quality.

  As a prior art related to the audio cable according to the present invention, there is an invention of a microphone cable described in Patent Document 1. The gist of the invention described in Patent Document 1 is that a short-pile pile is planted in at least a portion of the outer insulating sheath included in the microphone cable that is passed through the flexible pipe, and the pile is pressed against the inner surface of the flexible pipe. This is to limit the mechanical vibration generated when the flexible pipe is bent. As a configuration related to the present invention, Patent Document 1 discloses that two inner conductors in which two inner conductors are surrounded by an inner insulating sheath are arranged in parallel and integrated via an insulator, which is shielded. A cable structure is disclosed which is surrounded by a wire and further surrounded by the outer insulating sheath.

  In a conventional audio cable including the cable structure with the RCA plug and the cable structure described in Patent Document 1, the cross-sectional area of the conductor is limited, which is a bottleneck for improving sound quality. In this way, while the cross-sectional area of the conductor is limited, there are contrivances such as using a noble metal such as gold or silver as the material of the conductor, or plating the surface of the conducting wire with gold or silver, etc. Only the quality and characteristics of the connector are improved, and the improvement of the sound quality of the audio cable as a whole is limited.

JP 2006-229435 A

  The present invention achieves acoustic characteristics by reducing transmission loss and reducing the capacitance between signal lines, even if the shape and size of the connector at the end are limited by standards and the like. An object is to provide an audio cable that can be improved.

The audio cable according to the present invention is
A plurality of unit cables in which the conductor is covered with an insulator and the insulator is covered with a shield conductor are used,
Connectors are coupled to both ends of the plurality of unit cables,
The conducting wires of some unit cables among the plurality of unit cables are connected to one electrode of the connectors on both ends,
The conducting wires of some other unit cables among the plurality of unit cables are connected to other electrodes of the connectors at both ends,
The main feature is that a ground lead wire is connected to each of the shield conductors.

  Even if the connector is limited in shape and size by the standard, the area of the conductor in the cross section increases, the resistance value of the conductor decreases, and the transmission loss decreases. When viewed from the connectors at both ends of the cable, the distance between the conductor connected to one of the electrodes of the connector and the conductor connected to the other of the electrodes can be set wide, so that the capacitance between the conductors can be reduced. If the audio cable according to the present invention having such effects is used, the acoustic characteristics can be improved.

It is a cross-sectional view showing an embodiment of an audio cable according to the present invention. It is a cross-sectional view showing another embodiment of the audio cable according to the present invention. It is a perspective view which shows the example of an external appearance before and behind the junction part of the several unit cable in the audio cable which concerns on this invention. It is a cross-sectional view showing an example of a unit cable that can be used in the present invention. It is a cross-sectional view showing still another embodiment of the audio cable according to the present invention. It is a cross-sectional view showing still another embodiment of the audio cable according to the present invention.

  Hereinafter, embodiments of an audio cable according to the present invention will be described with reference to the drawings. In the audio cable according to the present invention, connectors for connecting to a sound source, an amplifier and the like are coupled to both ends. The connector generally includes a female jack and a male plug that fit together. Since plugs are generally coupled to both ends of the audio cable, each embodiment of the present invention will be described assuming that plugs are coupled to both ends of the audio cable. Also, since the standardized RCA plug or a plug called a pin plug is generally used as the plug of the audio cable, the description will be made assuming that the RCA plug is also used in each embodiment of the present invention. Furthermore, the RCA plug has a cylindrical electrode at the center and a ring-shaped electrode surrounding the electrode. The cylindrical electrode is generally a signal electrode. In the present specification, the signal electrode may be referred to as a “plus electrode”. The ring-shaped electrode is generally a ground electrode. In the present specification, the ground electrode may be referred to as a “minus electrode”.

  As described above, the present invention is characterized by using a plurality of unit cables. First, an example of the unit cable shown in FIG. 4 will be described. In FIG. 4, a conductor 1 is disposed at the center of the cross section of the unit cable. The conductor 1 is configured by bundling thin wires made of a plurality of conductors. The material of the thin wire can be composed of, for example, a copper wire. However, in the example shown in the figure, three gold clad OFCs, that is, a thin wire made of an oxygen-free copper wire bonded with gold, one PCCCC (Pure Copper Ohno Continuous Casting) It is configured by bundling one thin wire manufactured by Process), one 6NOFC thin wire, and 47 OFC thin wires. However, it is arbitrary which kind of fine line is used and which kind of thin line is used.

  A cord-like structure is formed by winding a string-like member 2 made of PE (polyethylene) around the conductor 1 in a spiral shape at a relatively large pitch. An insulator 3 is covered on the outer peripheral side of the string-like member 2. Between the conductor 1 and the insulator 3, the string-like member 2 is interposed, so that a space having an interval corresponding to the diameter of the string-like member 2 is generated except for the space occupied by the string-like member 2. An intervening sheath 4 is put on the outer periphery of the insulator 3.

  A shield tape 5 is spirally wound around the outer periphery of the insulator 3 without a gap. The shield tape 5 is based on a synthetic resin tape and has a shield conductor 6 made of a conductive layer such as copper formed on one surface thereof. The shield tape 5 is wound around the insulator 3 so that the shield conductor 6 is on the outer peripheral surface side. It has been. The outer periphery of the shield tape 5 is covered with an inner sheath 7, and the outer periphery of the inner sheath 7 is covered with an outer sheath 8. The inner sheath 7 is made of an elastomer mixed with titanium powder, and the outer sheath 8 is made of PVC (polyvinyl chloride). The materials of the shield tape 5, the inner sheath 7, and the outer sheath 8 shown above are examples, and are not limited thereto.

  FIG. 1 shows an embodiment of an audio cable in which two unit cables having substantially the same structure as the unit cable described above are bundled. 1, each of the two unit cables includes a conductor 1, a string-like member 2, an insulator 3, an intervening sheath 4, a shield tape 5, and an inner sheath 7, as shown in FIG. The two unit cables are arranged in parallel so that the outer peripheral surfaces of both inner sheaths 7 are in line contact, and are bundled by covering the outer periphery of the two unit cables with the outer sheath 9. Between the outer peripheral surfaces of the inner sheaths 7 of the two unit cables, a vibration damping member 10 having a circular cross section in which a core material made of nylon is covered with a high-functional thermoplastic elastomer is provided in the vicinity of the line contact portion. It arrange | positions on both sides on both sides of the said line contact part. The outer sheath 9 fills a space generated between the outer peripheral surface of the two unit cables and the outer peripheral surface of the vibration damping member 10. The outer cross-sectional shape of the outer sheath 9 is an oval oval shape.

  Plugs constituting one of male and female connectors are coupled to both ends of the two unit cables. The conductor wire 1 of one unit cable is connected to one electrode of each plug, for example, a signal electrode (plus electrode) at both ends, and the conductor wire 1 of the other unit cable is connected to the other electrode of each plug, that is, a ground electrode (minus) at both ends. Electrode). The shield conductors 6 of the two unit cables meet near both ends of the unit cable and are connected to the ground lead wire. The ground lead line will be described later.

  Since the section where the two unit cables are bundled has a large cross-sectional area, this section is referred to as a large cross-sectional area section. A portion where the shield conductors 6 of the two unit cables meet is referred to as a merge portion. Since the cross-sectional area of the part after the shield conductors at both ends of the two unit cables merge is small, this part is referred to as a small cross-sectional area part. The plug is coupled to the small area portion, and the conductors 1 are connected to the electrodes of the plug as described above. The two unit cables are integrated by being covered with the outer sheath 9 including the joining portion.

  The two unit cables have a color of the inner sheath 7 in order to distinguish between the conductor 1 connected to the signal electrode (plus electrode) of the plug and the conductor 1 connected to the ground electrode (minus electrode). For example, one color is white and the other is red.

  FIG. 3 shows the appearance of the joined portion of the shield conductor 6 at both ends of the two unit cables and the front and rear portions thereof. In FIG. 3, reference numeral 21 denotes a large cross-sectional area portion in which two unit cables are bundled, reference numeral 23 denotes a joining portion of the shield conductors 6 near the ends of the two unit cables, and reference numeral 22 denotes a cable after joining. The small cross-sectional area part of is shown. In each of the two unit cables, the shield conductors 6 join at the joining portion 23, and a portion from the joining portion 23 to the cable end is a small cross-sectional area portion 22.

  A large cross-sectional area portion 21, a joining portion 23, and a small cross-sectional area portion 22 after joining are covered with an outer sheath 9. A plug (not shown) is coupled to the small cross-sectional area portion 22 at the cable end, and a ground lead wire 24 is connected to the shield conductor 6 of each unit cable joined at the junction 23. The ground lead wire 24 is led out from the junction 23 separately from the plug. The ground lead line 24 is connected to a device connected by an audio cable, for example, a chassis such as a sound source device or an amplifier, and constitutes an earth line for both the connected devices.

  According to the embodiment of the audio cable, the two unit cables are bundled, and the conductor 1 of each unit cable is distributed and connected to the signal electrode (plus electrode) and the ground electrode (minus electrode) of the plug. The cross-sectional area of 1 can be substantially increased. As a result, the electrical resistance is reduced, the transmission loss is reduced, and the acoustic characteristics can be improved. In other words, even if the length of the cable is increased, the deterioration of the acoustic characteristics can be prevented. Since a plurality of unit cables are bundled, the distance between the plurality of signal lines, that is, the distance between the plurality of conductors 1 can be separated, and the capacitance between the conductors 1 is reduced. Can be planned. Since the cross-sectional area of the lead wire 1 connected to the signal electrode of the plug and the lead wire 1 connected to the ground electrode of the plug can be made equal, the signal can be transmitted efficiently.

  Next, a second embodiment shown in FIG. 2 will be described. In this embodiment, an outer shield conductor 20 is added to the first embodiment shown in FIG. 1, and two bundled unit cables are covered with the outer shield conductor 20. A space formed between the outer peripheral surface of the bundled two unit cables and the inner peripheral surface of the outer shield conductor 20 is filled with the interposing member 18, and the outer periphery of the outer shield conductor 20 is covered with the outer sheath 9. Although the vibration damping material used in the first embodiment is not used in this embodiment, a vibration damping material may be added. The configuration of the unit cable itself is the same as that shown in FIG.

  In the second embodiment shown in FIG. 2, the portion where the two unit cables are bundled is a large cross-sectional area portion 21 shown in FIG. The conducting wires 1 of the two unit cables are merged at the junction 23 shown in FIG. 3, and the shield conductors 6 of the two unit cables are also merged at the junction 23. The joined conductor 1 and the shield conductor 6 are connected to the small cross-sectional area portion 22, and a plug which is one side of a connector (not shown) is coupled to the small cross-sectional area portion 22. The joined conductor 1 is electrically connected to the signal electrode (plus electrode) of the plug, and the joined shield conductor 6 is electrically connected to the ground electrode (minus electrode) of the plug.

  3 is connected to the outer shield conductor 20 at the junction 23, and the ground lead 24 is drawn from the junction 23. The ground lead wire 24 is connected to a sound source device connected by an audio cable, a chassis of an audio device such as an amplifier, and the like, and blocks noise sources such as electromagnetic waves trying to enter the conductor 1.

  In the configuration shown in FIG. 2, as in the first embodiment, the lead wire 1 of one unit cable is the signal electrode (plus electrode) of the plug, and the lead wire 1 of the other unit cable is the ground electrode ( It is also possible to connect the shield conductor 6 and the outer shield conductor 20 of each unit cable to each other and connect the ground lead wire 24 thereto.

  Next, a third embodiment shown in FIG. 5 will be described. In this embodiment, the structure of the unit cable and the cross-sectional shape of the audio cable are different from the above embodiment. First, the structure of the unit cable will be described. The unit cable includes a conductor 1 and a string-like member 2 that forms a cordel structure by being spirally wound around the conductor 1 and a cylindrical insulator covering the outer periphery. 3 and has a simple structure as compared with the unit cable described above.

  Two unit cables having a cylindrical cross-section with the above structure are bundled by bringing the outer peripheral surfaces of both insulators 3 into line contact with each other, and the two unit cables are covered with a shield tape 15 wound in a circular cross-section. It has been broken. The shield tape 15 has a base member made of a synthetic resin and a shield conductor 16 composed of a conductive layer formed on one surface thereof, and the shield conductor 16 is wound outside in a spiral and cylindrical shape with no gap. .

  As described above, since the two unit cables having a circular cross section are covered with the shield tape 15 having a circular cross section, the gap between the outer peripheral surface of the two unit cables and the inner peripheral surface of the shield tape 15 is as follows. A weight-shaped space is formed in In this space, two damping members 30 having a circular cross section are disposed, and the rest of the space that cannot be filled with the two damping members 30 is filled with the interposition member 12. In the cross section shown in FIG. 5, each damping member 30 is so arranged that the outer circumferential surface of each damping member 30 contacts the outer circumferential surface of the two unit cables and the inner circumferential surface of the base member 15 holding the shield conductor 16. The outer diameter of the member 30 is determined. The damping member 30 has a double structure of an inner side and an outer side, and each material is different. Since the material of the damping member 30 is not related to the gist of the present invention, a detailed description is omitted.

In this embodiment, the interposition member 12 is made by twisting cotton yarn.
The outer periphery of the shield conductor 16 is covered with a sheath 7.

  Also in the third embodiment, the portion where the two unit cables are bundled is the large cross-sectional area portion 21 shown in FIG. 3, and the conductors 1 of the two unit cables join at the joining portion 23. doing. As in the first embodiment, a plug is coupled to the small cross-sectional area portion 22 after joining. The lead wire 1 of one unit cable is connected to the signal electrode (plus electrode) which is one electrode of the plug, and the lead wire 1 of the other unit cable is connected to the ground electrode (minus electrode) which is the other electrode of the plug. Is connected. A ground lead wire 24 shown in FIG. 3 is connected to the shield conductor 16 at the junction 23, and is drawn out from the junction 23 separately from the plug.

  In the third embodiment, the unit cable itself does not have a shield conductor, but since the two unit cables are collectively covered with the shield conductor 16, the shielding effect similar to that of the first embodiment and Other effects can be obtained. Also in this embodiment, in order to distinguish one of the two unit cables from the other, the color of each insulator 3 is preferably white and red, for example. The cross-sectional area of the conducting wire 1 connected to one electrode of the plug is equal to the cross-sectional area of the conducting wire 1 connected to the other electrode of the plug.

  Next, a fourth embodiment shown in FIG. 6 will be described. In this embodiment, two audio cables according to the third embodiment shown in FIG. 5 are arranged side by side and bundled, and these two audio cables are covered with an outer sheath 40. In this specification, each audio cable is referred to as an “audio cable unit”. Therefore, in the embodiment shown in FIG. 6, two audio cable units are bundled, and a total of four unit cables are bundled, and four conductors 1 are juxtaposed.

  The connection form of the plug to both ends of the audio cable according to the fourth embodiment is as follows. The conducting wires 1 of the two unit cables constituting one audio cable unit are joined together, and the joined conducting wires 1 are connected to one electrode of the plug, for example, a signal electrode (plus electrode). The conducting wires 1 of the two unit cables constituting the other audio cable unit are joined together, and the joined conducting wires 1 are connected to the other electrode of the plug, for example, a ground electrode (minus electrode). The shield conductors 16 of the two audio cable units merge with each other, and the ground lead wire 24 shown in FIG. 3 is connected to the merged shield conductor 16.

  Also in the fourth embodiment, as shown in FIG. 3, a portion where two audio cable units each consisting of four unit cables are bundled becomes a large cross-sectional area portion 21, and a plurality of conductors 1 and a plurality of shields are combined. The conductors merge at the junction 23. The audio cable after joining becomes a small area portion 22 having a smaller cross-sectional area than that of the large cross-sectional area portion 21. The ground lead line 24 is led out from the junction 23.

  According to the fourth embodiment described above, the same operational effects as those of the first, second, and third embodiments described above can be obtained.

  In the fourth embodiment, a stereo audio cable can be configured by using two audio cable units each consisting of two unit cables as independent audio cables. That is, plugs are coupled to both ends of each audio cable unit. The conductor wires 1 of the two unit cables constituting the audio cable unit are joined and connected to the signal electrode (plus electrode) of the plug coupled to each end of one audio cable unit, and the ground electrode of the plug The shield conductor 16 constituting the audio cable unit is connected to the (minus electrode). Similarly, the plugs connected to the respective ends of the other audio cable unit are also connected. According to the stereo audio cable thus configured, each audio cable unit is configured by bundling a plurality of units of cables, and therefore, the same effects as those of the above embodiments can be obtained.

  In the fourth embodiment, in order to identify four unit cables, the insulator 3 of each unit cable may be color-coded. When polyethylene is used as the material of the insulator 3, for example, the original color of the polyethylene itself, yellow, white, red, and blue may be color-coded to identify the four unit cables.

In any of the embodiments described above, a plurality of conductors 1 are provided, and the cross-sectional areas of the respective conductors 1 in one embodiment are equal. Therefore, for example, when the group of one conductor 1 is used as the plus side of the signal line and the other group of one conductor 1 is used as the minus side of the signal line, the cross-sectional areas of the plus and minus signal lines are equal.
It is advantageous from the viewpoint of sound quality that the cross-sectional area of the shield conductor is equal to the cross-sectional area of the conductor 1 if possible.

  The audio cable according to the present invention can be configured as a standardized RCA cable (also referred to as “pin plug”), or can be used as a speaker cable or other audio cable. As shown in each of the embodiments, the one in which the damping member is embedded is suitable as a cable for car audio, but the desired effect can be obtained even if it is used as a cable for connecting an audio device used indoors.

  In each embodiment, a unit cable having a coaxial cable structure is used such that the outer peripheral side of the conductor has a Cordel structure, the outer peripheral side is an insulating layer, and the outer peripheral side is a shield conductor. However, the structure of the unit cable does not necessarily have to be a coaxial cable structure, but a twisted structure, that is, a conductor having a twisted wire, an insulator on the outer periphery thereof, and a relatively simple structure having a net-like shield wire. It may be a thing.

DESCRIPTION OF SYMBOLS 1 Conductor 2 String-like member 3 Insulator 6 Shield conductor 7 Inner sheath 9 Outer sheath 14 Damping member 20 Outer shield conductor 21 Large cross-sectional area part 22 Small cross-sectional area part 23 Merge part 24 Ground lead line

Claims (10)

A plurality of unit cables in which the conductor is covered with an insulator and the insulator is covered with a shield conductor are used,
Connectors are coupled to both ends of the plurality of unit cables,
The conducting wires of some unit cables among the plurality of unit cables are connected to one electrode of the connectors on both ends,
The conducting wires of some other unit cables among the plurality of unit cables are connected to other electrodes of the connectors at both ends,
An audio cable in which a ground lead wire is connected to each shield conductor.   The audio cable according to claim 1, wherein the plurality of unit cables are covered with an outer sheath and integrated. A plurality of unit cables in which the conductor is covered with an insulator and the insulator is covered with a shield conductor are used,
The plurality of unit cables are bundled and the outer periphery thereof is covered with an outer shield conductor,
Connectors are coupled to both ends of the plurality of unit cables,
Each conducting wire of the plurality of unit cables is connected to one electrode of the connector at both ends,
The shield conductors of the plurality of unit cables are connected to other electrodes of the connectors at both ends,
An audio cable in which a ground lead wire is connected to the outer shield conductor. 4. The audio cable according to claim 3, wherein an inner sheath is interposed between the outer periphery of the plurality of unit cables and the outer shield conductor, and the outer periphery of the outer shield conductor is covered with the outer sheath .
A plurality of unit cables whose conductors are covered with an insulator are covered with shield conductors,
The shield conductor is covered with an outer sheath,
Connectors are coupled to both ends of the plurality of unit cables,
The conducting wires of some unit cables among the plurality of unit cables are connected to one electrode of the connectors on both ends,
The conducting wires of some other unit cables among the plurality of unit cables are connected to other electrodes of the connectors at both ends,
An audio cable in which a ground lead wire is connected to the shield conductor. A plurality of audio cable units in which a plurality of unit cables whose conductors are covered with an insulator are covered with a shield conductor are bundled,
The plurality of audio cable units are integrally covered with an outer sheath, and connectors are coupled to both ends of the audio cable unit,
Each of the conductors of some audio cable units among the plurality of audio cable units is connected to one electrode of the connectors on both ends,
The conductors of the other audio cable units among the plurality of audio cable units are connected to other electrodes of the connectors at both ends,
Each shield conductor of each audio cable unit is an audio cable connected to a ground lead wire.   The audio cable according to any one of claims 1 to 6, wherein the conducting wire is configured by bundling thin wires made of a plurality of types of materials.   The unit cable includes a cordel structure in which a space is formed between the conductor and the insulator by winding a string-like member in a spiral shape around the outer periphery of the conductor. Audio cable.   The audio cable according to any one of claims 1 to 8, wherein the shield conductor is formed by spirally winding a tape-like member having a conductive layer formed on one surface side of a synthetic resin base. The audio cable according to any one of claims 1 to 10, wherein the ground lead wire is led out from a joining portion of a plurality of unit cables.

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