Double wire cord and portable audio device using the same

Information

  • Patent Application
  • 20070277995
  • Publication Number
    20070277995
  • Date Filed
    December 06, 2006
    18 years ago
  • Date Published
    December 06, 2007
    17 years ago
Abstract
A double wire cord is used in an electro-acoustic converter, such as earphones and headphones, and has a long first cord and a long second cord. For example, the first cord is substantially circular in cross section and has a large diameter, the second cord is also substantially circular in cross section and has a small diameter, and the second cord can be removably housed in the first cord. The second cord is fitted into the fitting groove of the first code and thus housed in the first cord by pressing the side surface of the second cord against the fitting groove of the first cord, so that one wire cord can be easily provided. Therefore, it is convenient at the time of use and storage.
Description

BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1 is a schematic perspective view of a double wire cord according to a preferred first embodiment of the present invention;



FIG. 2 is a perspective view of an end part of the double wire cord shown in FIG. 1 according to the preferred first embodiment of the present invention;



FIG. 3 is a schematic perspective view of the double wire cord with a coupling member according to the preferred first embodiment of the present invention;



FIG. 4 includes cross-sectional views for illustrating fitting and separating operations of the double wire cord according to the preferred first embodiment of the present invention.





DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

In the following, embodiments of the present invention will be described with reference to the drawings.


First Embodiment (FIG. 1 to FIG. 4)

A long double wire cord 1 shown in FIG. 1 has a long first cord 10 and a long second cord 20 that can be coupled to and separated from each other.


For example, the first cord 10 is substantially circular in cross section and has a large diameter, the second cord 20 is also substantially circular in cross section and has a small diameter, and the second cord 20 can be removably housed in the first cord 10.


The first cord 10 has a plurality of long first conductors 11 coated and insulated. The plurality of first conductors 11 are coated with a first insulator 12 that is substantially circular in cross section. The first insulator 12 has a fitting groove 14 having a recessed cross section (a substantially circular cross section having a diameter smaller than that of the insulator 12, for example) that is formed in the side surface along the length thereof. The fitting groove 14 has an opening 14a having a predetermined width and extending along the length of the insulator 12, and a pair of engaging parts 14b and 14c protrude from the opposite edges of the opening 14a in such directions that they close the opening 14a and provide a gap smaller than the diameter of the second cord 20 therebetween. The paired engaging parts 14b and 14c are elastic.


The first insulator 12, the fitting groove 14 and the engaging parts 14b and 14c are integrally made of a resin, such as non-vinylchloride. Although not shown, the plurality of first conductors 11 may be provided with one or more reinforcing threads extending along the first conductors 11.


The second cord 20 has a plurality of long second conductors 21 coated and insulated. The plurality of second conductors 21 are coated with a second insulator 22, which can be fitted into the fitting groove 14. The second insulator 22 is substantially circular in cross section, has a diameter slightly smaller than that of the diameter of the cross-section of the fitting groove 14, and is made of a resin, such as non-vinyl chloride. Although not shown, the plurality of second conductors 21 may be provided with one or more reinforcing threads extending along the second conductors 21.


As shown in FIG. 3, a coupling member (an annular member, for example) 30 may be fitted around the double wire cord 1 in a slidable manner.


The long double wire cord 1 according to the first embodiment is manufactured as described below, for example.


First, the long first cord 10 is manufactured. For example, the plurality of first conductors 11 (and the one or more reinforcing threads as required) are set in a crosshead of an extruder, and resin pellets for forming the coating member is supplied to the extruder. Then, the resin pellets are heated and made molten, and injected to the crosshead at a predetermined pressure, thereby coating the surface of the plurality of first conductors 11 (and the one or more reinforcing threads inserted as required) with the resin. The first conductors 11 (and the one or more reinforcing threads inserted as required) coated with the molten resin is drawn from the crosshead at a predetermined speed and cooled. In this way, the long first cord 10 is formed that has the first conductors 11 coated with the first insulator 12 having a predetermined cross section determined by the shape of the die at the outlet of the crosshead.


The second cord 20 is formed in the same manner as the first cord 10. The first cord 10 and the second cord 20 are set in a fitting device or the like, the longitudinal side surface of the second cord 20 is brought into contact with the fitting groove 14 formed in the side surface of the first cord 10 along the length thereof, and the second cord 20 is pressed to the fitting groove 14. Then, the second cord 20 is fitted into the fitting groove 14 and thus is housed in the first cord 10. Then, the double wire cord 1 comprising the first cord 10 and the second cord 20 housed in the first cord 10 is wound around a roller or the like, and the manufacture of the long double wire cord 1 is completed.


In the case where the annular member 30 is attached to the double wire cord 1, the completed double wire cord 1 can be inserted into the annular member 30.


Now, with reference to FIGS. 4(1) to 4(4), an operation of fitting/removing the second cord 20 into/from the first cord 10 will be described.


In the case where the second cord 20 is housed in the first cord 10, as shown in FIGS. 4(1) and 4(2), the longitudinal side surface of the second cord 20 is brought into contact with the opening 14a of the fitting groove 14 formed in the side surface of the first cord 10 along the length thereof, and the second cord 20 is pressed toward the inside of the fitting groove 14 as shown by the arrow in the drawings. In the case where the double wire cord 1 is provided with the annular member 30, the second cord 20 can be pressed toward the inside of the fitting groove 14 by sliding the annular member 30.


When the second cord 20 is pressed, the elastic engaging parts 14b and 14c at the edges of the opening 14a are bent by the side surface of the second cord 20 toward the inside of the fitting groove 14 as shown by the arrows in FIG. 4(2), and the second cord 20 is pressed into the opening 14a and fitted into the fitting groove 14. Thus, as shown in FIG. 4(3), the second cord 20 is housed in the first cord 10.


In the state where the second cord 20 is housed in the first cord 10, the engaging parts 14b and 14c of the first cord 10 engage with the side surface of the second cord 20, thereby preventing the second cord 20 from dropping off from the fitting groove 14. Thus, if the double cord 1 having the second cord 20 housed in the first cord 10 is bent, the second cord 20 does not drop off from the first cord 10.


When removing the second cord 20 from the first cord 10, as shown in FIG. 4(4), the second cord 20 in the first cord 10 is pulled toward the outside of the opening 14a as shown by the arrow in this drawing. In the case where the double wire cord 1 is provided with the annular member 30, the annular member 30 moves as the second cord 20 is pulled apart from the first cord 10. Then, the elastic engaging parts 14b and 14c are bent toward the outside as shown by the arrows in this drawing to widen the opening 14a, and the second cord 20 is removed from the fitting groove 14.


The double wire cord 1 according to the first embodiment has the following advantages (1) to (5).


(1) The first cord 10 with the fitting groove 14 having a larger diameter and the second cord 20 having a smaller diameter intended to be housed in the fitting groove 14 can be separated from or coupled to each other at an arbitrary point by pulling them apart from each other or pressing them against each other. In particular, since the fitting groove 14 has a substantially circular cross section, and the second cord 20 to be fitted into the fitting groove 14 also has a substantially circular cross section, no angular adjustment of the second cord 20 is required when fitting the second cord 20 into the fitting groove 14, so that the second cord 20 can be easily fitted into the fitting groove 14. In addition, once the second cord 20 is housed in the first cord 10, the doublewire cord 1 can be handled as one cord, which is convenient for use and storage.


(2) In the state where the second cord 20 is housed in the first cord 10, the second cord 20 is locked by the engaging parts 14b and 14c of the first cord 10. Therefore, even if the double wire cord 1 is bent, the second cord 20 does not drop off from the first cord 10.


(3) The first conductors 11 are coated with the first insulator 12, and the second conductors 21 are coated with the second insulator 22. Therefore, in the state where the second cord 20 is housed in the first cord 10, the electrical insulation between the first conductors 11 and the second conductors 21 is high.


(4) Since the first cord 10 has a large diameter, it has a high mechanical strength, such as tensile strength. Since the second cord 20 has a small diameter, it is light and easy to bend. Although the second cord 20 has a low mechanical strength, such as tensile strength, the second cord 20 is mechanically protected by the first cord 10 once the second cord 20 is housed in the first cord 10. Therefore, The double wire cord 1 can be used for various applications suitable for such characteristic thereof.


(5) Since the first cord 10 and the second cord 20 have simple form of a section, they are easy to manufacture and have high mass productivity, and the cost can be reduced.


Second Embodiment (FIG. 5)

A portable audio device (earphones, for example) 40 shown in FIG. 5 has the double wire cord 1 according to the first embodiment. In particular, according to the second embodiment, two double wire cords 1-1 and 1-2, each of which is the double wire cord 1, are used. At one end of one double wire cord 1-1, the first cord 10 and the second cord 20 of the double wire cord 1-1 are connected to each other, and a female coupling member 44-1 having the shape of a sleeve, for example, is attached to the double wire cord 1-1 to cover the connection. At the other end of the double wire cord 1-1, a stereo earpiece 41-1, which is an electro-acoustic converter, is connected to the second cord 20 of the double wire cord 1-1.


Similarly, at one end of the other double wire cord 1-2, the first cord 10 and the second cord 20 of the double wire cord 1-2 are connected to each other, and a male coupling member 44-2 having the shape of a sleeve, for example, is attached to the double wire cord 1-2 to cover the connection. The male coupling member 44-2 can be detachably coupled with the female coupling member 44-1 so that the double wire cords can be put around a neck. In addition, at the other end of the double wire cord 1-2, a stereo earpiece 41-2 is connected to the second cord 20 of the double wire cord 1-2.


At the other ends of the double wire cords 1-1 and 1-2, the first cord 10 of the double wire cord 1-1 and the first cord 10 of the double wire cord 1-2 are connected to one end of a short twin-core wire cord 45, and a fixing member 46 having the shape of a sleeve, for example, is attached to the first cords 10 to cover the connection thereof. The other end of the wire cord 45 is drawn from a hole in the side surface of the fixing member 46, for example, and connected to a plug 43. A ring-shaped thread 47, from which the portable audio device 50 can be suspended, is attached to the bottom of the fixing member 46, for example, and the plug 43 is inserted into a jack of the portable audio device 50.


Annular members 30-1 and 30-2, such as that shown in FIG. 3, may be fitted around the double wire cords 1-1 and 1-2 in a slidable manner. A method of using the earphones 40 according to the second embodiment will be described for the purpose of illustration.


When using the earphones 40, the thread 47 attached to the bottom of the fixing member 46 is fastened to a hook on the portable audio device 50. The plug 43 connected to the wire cord 45 drawn from the side surface of the fixing member 46 is inserted into a jack of the portable audio device 50. The double wire cords 1-1 and 1-2 coupled in a ring by the coupling members 44-1 and 44-2 are put around the neck, and the earpieces 41-1 and 41-2 connected to the branched second cords 20 and 20 of the double wire cords 1-1 and 1-2 are inserted into the ears.


In the case where the length of the each of the second cords 20 and 20 is to be adjusted, if the earpieces 41-1 and 41-2 connected to the branched second cords 20 and 20 are pulled outwardly, the second cords 20 and 20 are drawn from the fitting grooves 14 and 14 of the first cords 10 and 10, and thus, the length of each of the branched second cords 20 and 20 increases. At this time, if the annular members 30-1 and 30-2 are attached to the double wire cords 1-1 and 1-2, the annular members 30-1 and 30-2 slide vertically along the double wire cords 1-1 and 1-2, so that the length of each of the branched second cords 20 and 20 increases.


On the other hand, if the branched second cords 20 and 20 of the double wire cords 1-1 and 1-2 and their respective associated first cords 10 and 10 are pinched together with the fingers, and the fingers are slid downwardly, the branched second cords 20 and 20 are fitted into the fitting grooves 14 and 14 of the first cords 10 and 10, and thus, the length of each of the branched second cords 20 and 20 decreases. At this time, in the case where the annular members 30-1 and 30-2 are attached to the double wire cords 1-1 and 1-2, if the annular members 30-1 and 30-2 are pinched with the fingers and slid downwardly, the branched second cords 20 and 20 are fitted into the fitting grooves 14 and 14 of the first cords 10 and 10, and thus, the length of each of the second cords 20 and 20 decreases.


Sound signals output from the portable audio device 50 are transmitted through the plug 43, the wire cord 45, the first cords 10 and 10 of the double wire cords 1-1 and 1-2, and the second cords 20 and 20 of the double wire cords 1-1 and 1-2 to the ear pieces 41-1 and 41-2 and converted into sounds by the earpieces 41-1 and 41-2, and the sounds are perceived by the ears.


The earphones 40 according to the present invention has the following advantages (1) and (2).


(1) Since the double wire cords 1-1 and 1-2 having the first cord 10 and the second cord 20 that can be detachably coupled to each other, the cord portion can have a reduced thickness and a simple configuration, compared with conventional ones. In addition, in the case where the earphones 40 are used around the neck, the length of the branched second cords 20 and 20 is increased by pulling the branched second cords 20 and 20 outwardly, and the length of the branched second cords 20 and 20 is decreased by pinching the branches with the fingers and sliding the fingers downwardly or sliding the annular members 30-1 and 30-2 downwardly. Thus, the length of the branches can be conveniently easily adjusted. In addition, since the branched second cords 20 and 20 can be housed in the first cords 10 and 10, the earphones 40 can be stored without the cord portion getting tangled.


(2) In the case where the double wire cords 1-1 and 1-2 coupled in a ring by the coupling members 44-1 and 44-2 are put around the neck, and the earpieces 41-land 41-2 are inserted into the ears during use, the weight of the hanging portable audio device 50 is applied to the neck via the first cords 10 and 10 having a larger diameter and a higher mechanical strength, and no direct tension is applied to the earpieces 41-1 and 41-2 connected to the second cords 20 and 20 having a smaller diameter and a lighter weight. Therefore, the earpieces 41-1 and 41-2 are less likely to drop off from the ears and are less fatiguing for the ears.


The present invention is not limited the first and second embodiments described above, and various modifications can be made. For example, the following modifications (a) to (c) are possible.


(a) In the first embodiment, the cross sections of the first cord 10 and the second cord 20 can have various shapes and configurations other than those shown in FIG. 1. For example, while the cross sections of the first insulator 12, the fitting groove 14 and the second insulator 22 shown in FIG. 1 are substantially circular, they can have other shapes, such as a substantially elliptical shape and a substantially rectangular shape.


(b) In the first embodiment, the engaging parts 14b and 14c shown in FIG. 2 have a sharp tip in cross section. The sharp tip can be slightly bent inward or slightly rounded to facilitate fitting of the second cord 20 into the first cord 10 when housing the second cord 20 in the first cord 10. (c) With regard to the second embodiment, the earphones 40 have been described as exemplary applications of the double wire cords according to the first embodiment. However, the present invention can be applied to other portable audio devices, such as headphone, and other various devices.

Claims
  • 1. A double wire cord, comprising: a first cord that has a long first conductor, a first insulator coating said first conductor, a fitting groove having a recessed cross section formed in a side surface of said first insulator along the length of said first insulator, and elastic engaging parts formed on parts of said fitting groove; anda second cord that has a long second conductor and a second insulator that coats said second conductor and is detachably fitted into said fitting groove and locked by said engaging parts, the diameter of the cross section of the second cord being smaller than the diameter of the cross section of said fitting groove.
  • 2. The double wire cord according to claim 1, further comprising: a coupling member that is fitted around said first and second cords in a slidable manner.
  • 3. The double wire cord according to claim 1, wherein said fitting groove having the recessed cross section has an opening having a predetermined width formed along the length of the side surface of said first insulator, and said engaging parts protrude from opposite parts of said opening in such directions that the engaging parts close said opening and provide a gap smaller than the diameter of the cross section of said second cord therebetween.
  • 4. A portable audio device, comprising: a double wire cord according to claim 1;a pair of electro-acoustic converters connected to one end of said double wire cord; anda plug connected to the other end of said double wire cord.
  • 5. The portable audio device according to claim 4, wherein said electro-acoustic converters are earphones or headphones.
Priority Claims (1)
Number Date Country Kind
2006-150109 May 2006 JP national