JP2011253632A - Water-proof cable - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an inexpensive water-proof cable that can surely prevent running of water under water immersion.SOLUTION: A cable unit 10 as a water-proof cable provided to a charging cable 1 has plural electrical wires 11, a sheath 14 as a coating part for accommodating the electrical wires 11, an intercalation member 12 which is filled in the cross-sectional direction between the plural electrical wires 11 and the sheath 11 and is provided over the whole length of the cable unit 10, a water cut-off tape 13 wound around the intercalation member 12 while pressed against the intercalation member 12, and a sheath 14 which is closely laminated on the water cut-off tape 13. The intercalation member 12 has normal intercalation parts 12a and water cut-off intercalation parts 12b which are alternately arranged over the whole length of the cable unit 10. The water cut-off intercalation parts 12b have a water absorbing and expanding property. Therefore, the water cut-off intercalation parts 12b absorb water immersed in the cable unit 10 to prevent running of water, and also expand to further prevent running of water.

Description

  The present invention relates to a waterproof cable such as a charging cable used for charging an electric vehicle or the like, for example.

  As various problems in the environment and energy become obvious, electric vehicles with low environmental impact and high energy efficiency are attracting attention. As one of such types of electric vehicles, there is an electric vehicle equipped with a secondary battery such as a nickel metal hydride rechargeable battery or a lithium ion rechargeable battery and traveling using electric energy stored in the secondary battery. .

  In an electric vehicle equipped with such a secondary battery, it is essential to charge the secondary battery. To charge the secondary battery, connect the secondary battery to a charging stand (charger) that generates voltage and current suitable for charging based on power supplied from a commercial power source and controls the charging time. Done. The electric vehicle body is provided with a secondary battery side connector connected to the secondary battery, and the charging stand is provided with a charging cable having a charging connector connected to the secondary battery side connector at the tip. By connecting these connectors to each other, the user of the electric vehicle can easily charge the secondary battery.

  When charging an electric vehicle, since the charging cable is used outdoors, it is required to be used under various weather conditions. In particular, when it gets wet from the gap between the terminal and housing of the charging connector or the damaged part of the charging cable in rainy weather etc., if this soaked water is transmitted to the charging stand, it will lead to failure or accident, In order to prevent these problems, the charging cable is required to be waterproof.

  For example, Patent Literature 1 discloses a conventional waterproof technology for cables installed outdoors. As shown in FIG. 4, an optical fiber cable 701 shown in Patent Document 1 includes a U-groove unit 716 configured by stacking and storing optical fiber tapes 714 in a U-groove 712, and is waterproof on a central tension member 718. A layer of tape 720 is provided, and an inner layer made of U-groove unit 716 is twisted and assembled thereon, and a presser winding of waterproof tape 722 is provided thereon, and an outer layer made of U-groove unit 716 is twisted and assembled thereon. Further, a presser winding of a waterproof tape 724 and a sheath 726 are provided thereon, and it is configured. In addition, a spacer 742 using a water-absorbing material is inserted into a part of these gaps in order to prevent gaps between the U-groove units 716 arranged in the inner layer.

  In such an optical fiber cable 701, the gap between the U-groove units 716 is reduced by providing the spacers 742. Therefore, the waterproof tape between the layers works effectively, and the water runs at the time of water immersion (that is, the water flows in the cable). The phenomenon of traveling along the gap along the longitudinal direction) can be shortened, and since the water-absorbing material is used for the spacer 742, the running of water during flooding can be further shortened.

JP-A-8-62464

  However, in the optical fiber cable 701 described above, the spacers 742 are provided to reduce the gaps of the U-groove unit 716, and these gaps are not completely filled. Therefore, even if a water absorbing material is used for the spacers 742, I couldn't completely prevent the water from running. Further, since it is necessary to provide the spacer 742 over the entire length of the optical fiber cable 701, a large amount of the spacer 742 is required, and there is a problem that the manufacturing cost is increased.

  The present invention aims to solve the above problems. That is, an object of the present invention is to provide an inexpensive waterproof cable that can reliably prevent running of water during flooding.

  In order to achieve the above object, the invention described in claim 1 is a waterproof cable having one or a plurality of electric wires and a covering portion that accommodates the electric wires, and between the electric wires and the covering portion. The waterproof cable is characterized in that it has a plurality of water-absorbing and expandable water-stopping interventions that are filled in the cross-sectional direction and are spaced from each other over the entire length of the waterproof cable.

  The invention described in claim 2 is characterized in that, in the invention described in claim 1, the water-stopping intervention is a nonwoven fabric coated with a water-absorbing expansion agent.

  The invention described in claim 3 is characterized in that, in the invention described in claim 1 or 2, a flexible member is provided between each of the plurality of water-stopping interventions. .

  According to the first aspect of the present invention, the water-absorbing and expanding water-stopping intervention is filled in the cross-sectional direction between the one or more electric wires and the covering portion of the waterproof cable. In addition to stopping the running of the submerged water due to the water stop interspersed (that is, filled) without any gaps, the water stop interstitial expansion is caused by the absorption of water into the water stop interposition, and further the electric wire and the covering portion The gap between and can be filled to prevent water running reliably. In addition, since multiple water-stopping interventions are provided at intervals over the entire length of the waterproof cable, even if the cover of the middle part of the waterproof cable is damaged and submerged, the nearest to the damaged part The water running can be stopped by the water stop, so that it is not necessary to provide the water stop continuously over the entire length of the waterproof cable, and the manufacturing cost can be reduced.

  According to the invention described in claim 2, since the water stop is a non-woven fabric coated with a water-absorbing expansion agent, it does not adhere to an electric wire, a cover, a connector attached to a waterproof cable, etc. The charging connector can be easily attached to or detached from the waterproof cable, and workability can be improved.

  According to the invention described in claim 3, since the flexible member is provided between each of the plurality of water-stopping interventions, the waterproof cable can be made flexible, and the waterproof cable can be easily routed. be able to.

It is a figure which shows the charging cable concerning one Embodiment of this invention, and the charging stand which charges the electric vehicle to which this charging cable was connected. It is the figure which expanded the charging cable of FIG. (A) is sectional drawing (cross-sectional view of a cable) which follows the XX line of FIG. 2, (b) is sectional drawing which follows the YY line of (a) (longitudinal sectional view of a cable). It is. It is a cross-sectional view illustrating a conventional waterproof cable.

  Hereinafter, a charging cable including a waterproof cable according to an embodiment of the present invention will be described with reference to FIGS.

  Charging cable 1 connects between charging station P shown in FIG. 1 and an electric vehicle (not shown), and is used to supply charging power to a secondary battery mounted on the electric vehicle. As shown in FIGS. 1 and 2, the charging cable 1 includes a cable portion 10 as a waterproof cable and a connector portion 20 as a charging connector. A connector portion 20 is attached to the distal end of the cable portion 10, and a charging stand P is connected to the proximal end of the cable portion 10.

  As shown in FIGS. 3A and 3B, the cable portion 10 includes a plurality of electric wires 11, an interposition member 12, a waterproof tape 13, and a sheath 14.

  The plurality of electric wires 11 are well-known covered electric wires composed of a conducting wire and a covering member that insulates the conducting wire. The plurality of electric wires 11 are used as a power supply line, a ground line, a control pilot line, etc., respectively.

  The interposition member 12 fills the gaps between the plurality of electric wires 11 along the cross-sectional direction of the cable portion 10 (that is, the paper surface direction in FIG. 3A) over the entire length of the cable portion 10. Is provided. The interposition member 12 includes a plurality of normal interpositions 12a and a plurality of water stop interpositions 12b, which are alternately provided over the entire length of the cable portion 10 (FIG. 2).

  For the intervening 12a, a soft woven paper made of polypropylene (PP) or the like is used, for example. The normal intervening 12a is made of a material having flexibility (ie, a flexible member) so that the cable portion 10 can be bent freely according to the handling of the charging cable 1 or the like. preferable. For example, a non-woven tape made of polyethylene coated with a water-absorbing expansion agent such as a highly water-absorbing resin is used for the water-stopping intervening 12b. It is wound without any gaps with a thickness in the cross-sectional direction.

  The waterstop tape 13 is, for example, a non-woven tape similar to the waterstop 12b, and has a circular cross section around the interposed member 12 (ie, the normal 12a and the waterstop 12b) without any gaps. As shown, the cable portion 10 is pushed over the entire length.

  The sheath 14 is a well-known flexible tubular insulating coating made of a synthetic resin such as polyethylene. The sheath 14 is formed to have the same length as the plurality of electric wires 11, and accommodates the plurality of electric wires 11, the interposition member 12, and the water blocking tape 13 therein. The sheath 14 is arranged so that the inner peripheral surface thereof overlaps the waterproofing tape 13 closely.

  As is clear from the above, the cable portion 10 is filled in the cross-sectional direction between the plurality of electric wires 11 and the waterproofing tape 13 (that is, the sheath 14), and is connected to each other over the entire length of the cable portion 10. It has a plurality of water-swellable water-stopping interventions 12b provided at intervals.

  As shown in FIG. 2, the connector portion 20 includes a case 22 having a grip portion 21 gripped by a user, and a plurality of electric wires 11 of the cable portion 10 provided in a cylindrical shape at the tip of the case 22. And a connector housing 24 that houses the electrically connected terminal fitting 23 toward the opening side 24a. A waterproof packing (not shown) is provided between the terminal fitting 23 and the connector housing 24 to block the gap between them and prevent water from entering the connector portion 20. The connector unit 20 includes a plurality of electric wires 11 (that is, a charging stand P) by fitting a secondary battery side connector electrically connected to a secondary battery mounted on an electric vehicle and the connector housing 24. ) And the secondary battery are electrically connected.

  Next, the effect | action which concerns on this invention in the charging cable 1 mentioned above is demonstrated with reference to FIG.

  Since the waterproof packing is provided on the connector portion 20 of the charging cable 1, water does not enter the case 22 of the connector portion 20 in a normal state. However, if the connector housing 24 is deformed due to unreasonable fitting with the secondary battery side connector or the like, the waterproof packing is displaced and a gap is formed, and the case 22 may be submerged. Then, the water immersed in the case 22 is directed to the charging stand P through the normal interposition 12a of the cable portion 10, but a water stop interposition 12b is provided at a location A near the tip of the cable portion 10. Therefore, the water soaked in by the water stop 12b is absorbed, and the running of water beyond the point A is prevented. Moreover, since the water stop interposition 12b expand | swells by absorbing water, a clearance gap is lost further and running of water is further prevented.

  Further, even when the sheath 14 and the waterproof tape 13 at the location K in the middle of the cable portion 10 are damaged and are immersed in the cable portion 10, they are provided at locations B and C located on both sides of the location K. The water stop 12b prevents the water that has been submerged from running as described above.

  As described above, according to the present invention, the water-absorbing and expanding water-stopping intervention 12b is filled in the cross-sectional direction between the plurality of electric wires 11 and the sheath 14 (water-stopping tape 13) of the cable portion 10. The running of the submerged water is stopped by the water-stopping intervening 12b packed in the transverse direction without gaps (ie, filled), and the water-stopping intervening 12b expands by absorbing water into the water-stopping intervening 12b. Further, the gap between the electric wire 11 and the sheath 14 is filled, and water can be reliably prevented from running. In addition, since the plurality of water-stopping interventions 12b are provided at intervals over the entire length of the cable part 10, the sheath 14 in the middle part of the cable part 10 is damaged and submerged. The running of water can be stopped by the nearest water stop 12b, so that it is not necessary to provide the water stop 12b continuously over the entire length of the cable portion 10, and the manufacturing cost can be reduced.

  Moreover, since the water stop 12b is a non-woven tape coated with a water-absorbing expansion agent, it does not adhere to the electric wire 11, the sheath 14, the connector part 20, and the like. For this reason, for example, attachment of the connector part 20 of the cable part 10 Alternatively, the removal work can be easily performed, and workability can be improved.

  In addition, since the normal intervening 12a made of woven fabric having flexibility is provided between each of the plurality of water blocking intervening 12b, the waterproof cable can be made flexible, and the waterproof cable can be easily attached. Can be turned.

  In addition, embodiment mentioned above only showed the typical form of this invention, and this invention is not limited to embodiment. That is, various modifications can be made without departing from the scope of the present invention.

1 Charging cable 10 Cable part (waterproof cable)
11 Electric wire 12 Intervening member 12a Normal interposition (flexible member)
12b Water stop 13 Water stop tape 14 Sheath (cover)
20 Connector part P Charging stand

Claims (3)

In a waterproof cable having one or a plurality of electric wires and a covering portion that accommodates the electric wires,
A plurality of water-absorbing and expanding water-stopping interventions are provided between the electric wire and the covering portion in a cross-sectional direction and provided at intervals from each other over the entire length of the waterproof cable. Waterproof cable characterized by that.   The waterproof cable according to claim 1, wherein the water stop is a non-woven fabric coated with a water-swelling agent.   The waterproof cable according to claim 1, wherein a flexible member is provided between each of the plurality of water-stopping interventions.

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