JP2019067709A - Expansive electric wire - Google Patents

Abstract

To provide an expansive electric wire which is difficult to cause sweat smell, is easy to be washed, and has good apparent texture.SOLUTION: An expansive electric wire has an expansive core part, a conductor part composed of a resin coating conductor wire wound and/or braided around the outer periphery of the expansive core part, and an outer coating layer containing 20 mass% or more of a monofilament having a single fiber fineness of 40 dt or more on the outer periphery of the conductor part, and has a deliquoring index of 15 or less.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a stretchable electric wire having stretchability, which is resistant to sweat odor when used for wiring of a device attached to the body, and relates to a stretchable electric wire which is easy to wash in water and has a good texture.

In the conventional electric wire, since the core portion is formed of a conductor wire and the outer periphery thereof is covered with an insulator, it hardly shows stretchability. Among them, as a representative example of the stretchable electric wire, there is a curled cord which can be expanded and contracted by forming the electric wire in a coil form, and is used for fixed telephones and the like. However, these are generally heavy and there is a problem that curled cords are easily intertwined.
On the other hand, as a technique relating to a stretchable wire having stretchability in the wire itself, for example, in Patent Document 1, a copper foil is formed on the outer periphery of a core yarn formed by winding an inelastic yarn in a state where the elastic yarn is stretched approximately twice. And a telescopic wire having a spiral wound thereon. Further, in Patent Document 2, a core portion formed of an elastic body having stretchability, a conductor portion formed of a conductor wire spirally wound at an angle of 30 degrees to 80 degrees around the core portion, and the conductor An extendable electric wire is disclosed which has an outer covering portion made of an insulating material on the outer periphery of the portion. Furthermore, in Patent Document 3, a core portion is an elastic body that can expand and contract, a conductor wire is wound around the core portion to form a conductor portion, and the conductor portion is formed of an elastic resin formed on the outer periphery of the conductor portion. A stretchable wire is disclosed having a first outer covering layer and a second outer covering layer composed of fibers formed on the outer periphery of the first outer covering layer.

However, although a braided insulating fiber is often used as the outer sheath in such a practical use of the stretchable wire, it is difficult for the absorbed sweat to be difficult to dry and to become sweaty, and also to have no gloss and be cheap Sometimes I felt like it.
As a braided fiber-like material, as a joint in a hydraulic circuit of an automobile, a fabric sleeve using a twisted yarn consisting of a monofilament and a multifilament as heat recoverable twisted yarn (Patent Document 4), improvement of workability in facilities Technology that uses a lubricious monofilament as a braided sheath in order to improve the slipperiness of the cable (Japanese Patent Application Laid-Open No. H09-269501), or a combination of rubbery monofilament and multifilament for the purpose of preventing lace-out Woven yarn cords (Patent Document 6) and the like are known. However, there was no description on the drainage property, dryness or texture of the string-like material.

Japanese Patent Application Laid-Open No. 61-290603 JP, 2010-040337, A Unexamined-Japanese-Patent No. 2011-082050 Japanese Patent Application Publication No. 2002-527684 Unexamined-Japanese-Patent No. 2013-222585 Utility model registration 3115270 gazette

  An object of the present invention is to provide a stretch electric wire which is resistant to sweat odor, easy to wash in water and good in texture.

  The present inventor forms an outer covering layer containing 20% by mass or more of a monofilament with a single yarn fineness of 40 dt or more on the outer periphery of the conductor portion of the expandable electric wire, and keeps the sweat by setting the drainage index to 15 or less. It has been found that it is hard to do, it is easy to wash when sweat adheres, and that a stretchable electric wire having a good gloss and good texture can be obtained, resulting in the present invention. That is, the present invention is as follows.

[1] A stretchable core, a conductor comprising a resin-coated conductor wire wound and / or braided on the outer periphery of the stretchable core, and a monofilament having a single yarn fineness of 40 dt or more on the outer periphery of the conductor An expandable electric wire having an outer covering layer containing 20% by mass or more and having a drainage index of 15 or less.
[2] The expandable electric wire according to [1], wherein a drying index of the expandable electric wire is 0.1 or more.
[3] The extensible electric wire according to [1] or [2], wherein the drainage index of the core portion is 5 or less.
[4] The extensible electric wire according to any one of [1] to [3], wherein the drainage index of the conductor portion is 5 or less.
[5] The extensible electric wire according to any one of [1] to [4], wherein the outer covering layer is composed of two or more types of insulating fibers each having a single yarn fineness different by 20% or more.
[6] The expandable electric wire according to any one of [1] to [5], wherein the internal conductor coating index of the expandable electric wire is 3 or more.
[7] The expandable electric wire according to any one of [1] to [6], wherein the internal conductor identification index of the expandable electric wire is 3 or more.
[8] The expandable electric wire according to any one of [1] to [7], wherein the texture index of the expandable electric wire is 3 or more.
[9] The monofilament constituting the outer covering layer contains at least one monofilament selected from the group consisting of nylon, polyester, polyethylene terephthalate, polybutylene terephthalate, polyethylene naphthalate, and fluorocarbon resin, [1] to [8] ] The telescopic wire according to any one of the above.

  The stretchable electric wire of the present invention is excellent in texture, prevents sweat odor at the time of sweat adhesion, and is excellent in dirt removing property and reusability at the time of oil and dirt adhesion of equipment wiring. Therefore, the stretchable wire of the present invention is suitable for use in earphones, wearable devices, etc., in fields that care about the appearance and stains such as sweat when worn on the body.

It is a schematic diagram of an example (four conductor wires) of the expansion-contraction electric wire of this invention. It is a cross-sectional schematic diagram of the extendable electric wire shown in FIG. It is a schematic diagram for demonstrating the method of drainage at the time of measuring a drainage index. It is a schematic diagram for demonstrating a test apparatus when measuring dryness index.

Hereinafter, modes for carrying out the present invention (hereinafter referred to as “the present embodiment”) will be described in detail. In addition, this invention is not limited to the following embodiment, It can variously deform and implement within the range of the summary.
[Extension Wire]
The stretchable wire of this embodiment has a stretchable core portion, a conductor portion composed of a conductor wire wound and / or braided on the outer periphery of the stretchable core portion, and a single yarn fineness of 40 dt or more on the outer periphery of the conductor portion. And an outer covering layer containing 20% by mass or more of monofilaments of

The drainage index of the stretchable wire having the outer covering layer containing monofilaments formed of the fibers is preferably 15 or less, more preferably 10 or less, and still more preferably 5 or less. The drainage index said here is an index (water content per unit area) based on the amount of water after leaving a telescopic cable immersed in water on Kim Towel (registered trademark) for 30 seconds and draining water. That is, after washing with water, it is assumed that the degree of wetness when it is lightly wiped with a towel or the like.
Further, the drying index of the stretchable wire according to the present embodiment is preferably 0.1 or more, more preferably 0.15 or more, and still more preferably 0.2 or more. The drying index referred to here indicates the speed of drying after being dropped in a sample table after being dipped in water and dropped by a water drop, and the drying is faster as the index is larger.
When the drainage index and the dryness index are in the above-mentioned range, it is easy to dry and hard to sweat.

Furthermore, it is preferable that the inner conductor covering index, the inner conductor identification index, and the texture index of the stretchable wire of the present embodiment are each 3 or more.
The inner conductor covering index is an index determined by visually judging the state in which the inside is not visible, as described later, and the index is 3 (the internal conductor wire is almost visible when the stretchable wire is relaxed or stretched State) or more is preferable.
In addition, the internal conductor identification index is an index determined by visually judging the state in which the inside is visible, as described later, and the index is 3 (an internal conductor wire at the time of relaxation or extension of the stretchable wire State of being substantially distinguishable) or more.
Furthermore, as described later, the texture index is the visual sense of touch and gloss of the expandable electric wire, and the texture index is 3 (the score of good touch and gloss of 35 points or more as an evaluation point) And the like) or more.

[Elastic core]
The core material used for the stretchable core portion of the stretchable electric wire of the present embodiment is made of an elastic body, and the type thereof is, for example, thermoplastic elastomers such as polyurethane elastomers, polyolefin elastomers, polyester elastomers, polyamide elastomers, silicone Examples thereof include rubber, synthetic rubber such as ethylene propylene rubber, chloroprene rubber and butyl rubber, natural rubber, and a composite rubber-based material of the above synthetic rubber and natural rubber. These cords may be in the form of sponge, hollow or solid, but solid is preferable because water may penetrate inside when cracks are generated during expansion and contraction. Further, a fluorine-based or olefin-based water-repellent rubber material or one having a water-repellent surface is characterized in that the liquid is easily drained. The ease of expansion and contraction is characterized in that the silicon system is easily expanded and contracted. Among these, silicone rubber, ethylene propylene rubber and fluororubber are recommended.

  The material used for the stretchable core portion of the stretchable electric wire according to the present embodiment is made of the stretchable material and / or the structure having stretchability among the elastic body having water resistance and / or oil resistance, according to the present invention It is a member which constitutes the core of the expandable electric wire. The core needs to have stretchability of 10% or more. It is more preferable to have stretchability of 50% or more. If the stretchability is less than 10%, the stretchability is poor, and the load when stretching the stretchable wire is large. It is more preferable to use an elastic body having stretchability of 100% or more, and particularly preferably 300% or more. The outer diameter of the stretchable core may be appropriately set according to the thickness of the target stretchable wire, but is preferably in the range of 0.01 to 30 mm, more preferably 0.02 to 20 mm, and 0. More preferably, it is 031 to 10 mm.

The drainage index of the stretchable core used for the stretchable wire of the present embodiment is preferably 5 or less.
The method of measuring the drainage index of the elastic core portion is the same as the method of measuring the elastic wire described above.

[Conductor part]
The stretchable wire of the present invention has a conductor portion composed of a conductor wire wound and / or braided on the outer periphery of the stretchable core portion. The conductor wire can be arbitrarily selected from well-known insulating resins according to the purpose described later, and for example, polyvinyl chloride resin, polyolefin resin, fluorocarbon resin, urethane resin, ester resin and the like can be used. Moreover, it is preferable that the resin coating of a conductor wire is color-coded for identification.
The polyolefin resin-coated wire and the fluorine resin-coated wire are characterized in that they are easily drained. Among these, polyvinyl chloride is particularly preferable because it has a characteristic of being soft.

  The conductor wire in the expandable electric wire according to the present invention may be a single wire or a collective wire composed of two or more thin wires, but is more preferably a collective wire. In this case, the flexibility of the conductor wire is increased, the stretchability of the stretchable core portion is less likely to be inhibited, and a thinner stretchable wire is easily obtained. The single line or collective line may be a round line or a flat line such as a ribbon line.

Various methods are known as a method of collecting thin lines, and thin lines can be collected by a method known also in the present invention. However, since it may be difficult to wind or braid the conductor wire by simply drawing the thin wire straight, it is preferable to use the thin wire as a stranded wire.
When the conductor wire is a collective wire, the diameter of the thin wire forming the collective wire is preferably 1 mm or less, more preferably 0.1 mm or less, particularly preferably 0.08 mm or less, and most preferably It is 0.05 mm or less. When the diameter of the thin wire is 1 mm or less, the flexibility of the conductor wire is high and the stretchability of the stretchable core portion is not easily inhibited, so breakage due to the stretch is difficult to occur and a thinner stretchable wire is easily obtained. On the other hand, since it will be easy to be disconnected at the time of processing when the diameter of a thin wire is too thin, it is preferable that this diameter is 0.01 mm or more.

  It is preferable that the diameter of the assembly line comprised from this thin wire is 10 mm or less, More preferably, it is 5 mm or less, More preferably, it is 1 mm or less. When the reduced diameter of the conductor wire is 10 mm or less, flexible and stable winding or braiding of the conductor wire is possible. Further, in terms of workability of winding or braiding, the converted diameter of the conductor wire is preferably 0.01 mm or more, and more preferably 0.02 mm or more.

The specific resistance of the conductor wire is preferably 10 Ω · cm or less, and more preferably 5 Ω · cm or less, from the viewpoint of imparting good conductivity to the stretchable wire. The material of the conductor wire is not particularly limited, and can be appropriately selected depending on the use purpose and the like, and can be selected from, for example, copper, stainless steel, aluminum, lead, other metals, and metal plated fibers. As a conductor wire comprised with metal, the copper wire whose 80 mass% or more is copper, or the aluminum wire whose aluminum is 80 mass% or more is preferable. Copper wires are most preferred because they are relatively inexpensive and have low electrical resistance. In addition, aluminum wire is preferable to copper wire in that it is lightweight. A soft copper wire or a tin-copper alloy wire is generally used as the copper wire, but a strong copper alloy (for example, one obtained by adding iron, phosphorus, indium or the like to oxygen-free copper) whose strength is increased without significantly reducing the conductivity. In addition to the above, those plated with tin, gold, silver, platinum or the like to prevent oxidation, or those surface-treated with gold or other elements to improve the transmission characteristics of electric signals can also be used. The resistivity ρ (Ω · cm) is expressed by the following equation, where R [Ω] is the resistance, L [cm] is the length of the conductor, and A [cm ² ] is the cross-sectional area of the conductor:
ρ = R × A / L [Ω · cm]
Is the value obtained by The resistance R is a value measured by a tester.

  The stretchable wire used in the present invention can also be obtained by winding a micro coaxial cable around an elastic body. The thin coaxial cable is preferably 3 mm or less in thickness because it is easily wound.

[Osae thread]
In the stretchable wire of the present invention, insulating fibers can be alternately braided in the direction opposite to the conductor wire in order to prevent the position of the conductor wire from shifting. The insulating fiber can be regarded as an outer covering layer because it is formed on the outer periphery of the conductor portion. The insulation fiber used as this sagger yarn can use a monofilament to enhance the drainage property.
By making this insulation fiber of five or more multifilaments having a single fiber fineness of 10 dt or less, the water inside can spread to the outside, and can be easily dried. These can be used properly depending on the number of cores and the outer diameter of the conductor. That is, in the case where the number of cores is small and the diameter is not too large and a sparse conductor winding portion is to be made, it is recommended to increase the liquid drainage by making the osae yarn also monophila.
On the other hand, in the case where the number of cores is large and a thin conductor winding portion is to be made, a method of promoting the development of water by multifilament is recommended.
In order to accelerate the development of water, hydrophilic processed hydrophobic fibers (representative example polyester fibers), and in order to enhance the development of water, hydrophobic fibers having an irregular cross section such as Y-type, U-type, W-type, etc. It can also be used. Hydrophilic cellulosic fibers are not recommended for use because they develop water quickly but are difficult to dry.

[Inclusion]
In the stretchable wire of the present invention, an insulating filament may be interposed between the conductor wires in the same direction as the conductor wires (hereinafter referred to as inclusions) in order to keep the spacing of the conductor wires uniform. . It is preferable that the inclusions are easily drained. For this reason, monofilaments and solid strings having few gaps and voids are recommended. It is further preferable that the inclusions have water repellency. The inclusions can have a cushioning property between the conductor wires and can extend the life.

[Exterior coating]
The stretchable wire of the present embodiment includes a monofilament having a short fiber fineness of 40 dt or more. The fineness of the monofilament is preferably thick because it is easy to drain. The fineness is preferably 50 dt or more, more preferably 90 dt or more. Moreover, it is easy to drain liquid, so that the content rate is large. In order to enhance the drainage, 20% by mass or more is required, preferably 30% by mass or more, and more preferably 40% by mass or more. However, if the monofilament is thick, it is easy to make a gap, and the internal conductor can be seen through easily. In order to make the internal conductor inconspicuous, it is conceivable to lower the fineness of the monofilament, but when the fineness is lowered, it is difficult to remove the liquid, which is not preferable. Therefore, it is better to combine different finenesses. If the finenesses are different by 50% or more, they will be thinner to make it easier to fill the gaps. More preferably, they differ by 100% or more, more preferably by 200% or more. For example, by combining a monoton of 180 dt and a monoton of 56 dt, it is possible to provide a coating which is hard to see the internal conductor and which has good drainage properties.

In the stretchable wire of this embodiment, a monofilament and a multifilament can be combined.
80 mass% or less is preferable, and, as for multifilament content, 60 mass% or less is more preferable. When it becomes 80 mass% or more, it is not preferable because it becomes difficult to drain.

  When 5% to 70% of 5 or more multifilaments each having a single fiber fineness of 20 dt or less are combined, the coating property can be improved while maintaining the drainage property. In particular, it is preferable to assemble 10 or more multifilaments at 10 dt or less, because the water retained inside can be easily spread out to the outside, and the drying speed can be increased.

  The thickness of the outer covering layer is preferably 0.01 mm or more, more preferably 0.1 mm or more, and still more preferably 0.2 mm or more. Moreover, in order to maintain the flexibility of the stretchable wire, the thickness of the outer covering layer is preferably 5 mm or less, more preferably 3 mm or less. If the thickness of the outer covering layer is in this range, the protection of the conductor portion is improved, and a stretchable wire having high durability can be obtained.

  The coverage of the outer covering layer is, for example, in the case of forming the outer covering layer by braiding with a braiding machine, the diameter of the fibers constituting, the number of alignment, the number of winding per unit length during braiding, etc. It can be changed according to the conditions.

  Examples of monofilaments used for the outer covering layer include nylon monofilaments, polyester monofilaments (polyethylene terephthalate, polybutylene terephthalate, polyethylene naphthalate), and fluorocarbon resin monofilaments. Among these, nylon monofilaments and fluorocarbon resin monofilaments which are excellent in oil resistance, chemical resistance and / or breaking strength are particularly preferable.

  The insulating fiber used for the outer covering layer is preferably dark or black in order to make the inner conductor invisible, and light fibers or transparent fibers are recommended in order to obtain a transparent feeling.

  In addition, the softness | flexibility and abrasion resistance can also be aimed at by finishing the said fiber. Furthermore, the handling property in practical use is improved by subjecting the fiber to known processing such as flame retardant processing, water repellent processing, oil repellent processing, antifouling processing, antibacterial processing, antibacterial processing, deodorizing processing, etc. You can also. In particular, it is preferable to apply a smoothing agent such as silicone resin to the surface of the above-mentioned fibers because the coefficient of friction of the surface of the stretchable electric wire can be further reduced. Further, it is preferable to apply a fluorine-based processing agent or the like to the surface of the fiber because water-repellent processing can be performed.

  The stretchable wire of the present invention has an outer covering layer composed of fibers formed on the outer periphery of the conductor portion in order to prevent the conductor wire from coming into direct contact with the outside. The outer covering layer is required to protect the internal conductor without inhibiting the stretchability of the stretchable core, so that the fibers constituting the outer covering layer are preferably braided.

  The outer covering layer preferably includes fibers wound in the opposite direction to the conductor wire. The conductor wire can be wound in one direction (for example, the Z direction), and the fiber can be wound in the reverse direction (S direction) from above, or can be wound in the two directions of S / Z. Moreover, the fiber which comprises an outer coating layer can also use what differs in conversion diameter. When fibers having different reduced diameters are combined, it may be a combination of monofilaments, multifilaments, or a combination of monofilaments and multifilaments. A multifilamentary fiber for small diameter fibers and a monofilamentary fiber for large diameter fibers is characterized by excellent stretchability and abrasion resistance. Furthermore, if the large diameter fiber is wound in the same direction as the conductor wire and the small diameter fiber is wound in the reverse direction, the effect is more easily obtained.

[Extension Wire]
The stretchable electric wire of the present invention may be composed only of the stretchable core portion, the conductor portion, and the outer covering layer described above, but it prevents the other members from being interposed inside and / or between the respective members. Absent. As another member, for example, a noise resistant shield or the like can be formed by braiding metal fibers between the members.

  The stretchable wire of the present invention preferably has a stretch ratio of 5% or more, more preferably 15% or more. When the expansion ratio is 5% or more, disconnection due to the inability of the stretchable wire to follow the extension force is unlikely to occur.

  The resistance of the stretchable wire of the present invention in a relaxed state is preferably 10 Ω / m or less. When this resistance exceeds 10 Ω / m, although it is easy to flow a weak current, it tends to be difficult to flow a drive current. The resistance is more preferably 1 Ω / m or less, and the resistance is a value measured by a tester.

Since the stretchable wire of the present invention is assumed to be used as a wire of an electronic device to be worn, color, pattern, and texture (glossy) are also important qualities.
According to the findings of the inventors of the present invention, it is not preferable that the inner conductor can not be seen when it is half-finished, and when it is expanded or contracted, the appearance changes.
Therefore, it is preferable that either the state in which it does not appear flickering even if it expands or contracts, or the state in which the inside is shown in reverse.

  In order to visually judge the state where the inside is not visible, the inner conductor covering index is an index to determine whether the inner conductor is flickering or not at the time of relaxation and extension. The rank was divided with a little visible 見 え る and a visible x, and the index was calculated according to the criteria described later. The index is preferably 3 (〇 or Δ) or more, more preferably 4 or more, and particularly preferably 5.

On the contrary, in order to visually determine the state in which the inside is visible, as an inner conductor identification index, in order to identify whether or not the inner conductor is firmly seen during relaxation and extension, ◎, which can roughly identify ◎ The ranks were classified based on the criteria described later, with Δ being able to identify somehow and × not being able to identify.
It is preferably in a state where it can be somehow identified (rank 3) or more, more preferably 4 or more, and 5 is particularly preferable.

The texture was evaluated to evaluate the degree of touch and gloss, and 7 monitors were asked to select one of the 4 ranks, respectively, and the texture index was obtained from the number of people who selected it.
The texture index of the outer covering layer of the present invention is preferably 3 (glossy and firm) or more, more preferably 4. Particularly preferably, it is 5.

[Manufacturing of telescopic wires]
Next, the typical manufacturing method of the extensible electric wire of this invention is demonstrated. In addition, the expansion-contraction electric wire of this invention is not limited to what is obtained by the following manufacturing methods.

  As a typical production method of the stretchable wire of the present invention, a conductor wire (single wire in a Z twist direction in a state where the stretchable core portion is stretched using a 16-strike stringing machine (manufactured by Kokbun Limited) Alternatively, four conductor wires are arranged, eight polyester fibers are arranged in the S twist direction, and a conductor portion is formed by braiding the outer periphery of the elastic core portion.

  After the conductor wire is wound and / or braided on the outer periphery of the elastic core portion to form the conductor portion as described above, an outer covering layer made of fibers is formed on the outer periphery of the conductor portion. The outer covering layer made of fibers is preferably braided using a stringing machine or the like. At this time, it is preferable to form the said outer coating layer in the state which expand | extended the intermediate body comprised by an elastic core part and a conductor part. The telescopic wire of the present invention can be manufactured as described above.

  Hereinafter, the present invention will be described based on examples and comparative examples, but the present invention is not limited to these examples. Further, the characteristics of the present invention were measured by the following methods.

<Measurement method>
(1) Drainage Index In order to prevent the coating from breaking even when the sample is cut, heat is applied to both ends of 10 cm of the sample with a heat gun and then cut into 10 cm to measure the sample weight (M0 (mg)). This is immersed in water at room temperature for 5 minutes, taken out with tweezers, and placed on Kim Towel (registered trademark) (Nippon Paper Cresia Co., Ltd. Size: 380 * 380, material: pulp, 4-ply, brown) for 30 seconds After standing, the weight was measured (M1 (mg)). In addition, before immersion, the outer diameter (diameter) of the sample was measured with a caliper to obtain R (mm), and the surface area (cm ² ) of the sample (10 cm) was determined.
From these values, the following equation:
Drainage index = (M1-M0) (mg) / (πR × 0.1 × 10) (cm ² )
The amount of water per unit surface area was determined by the following equation, and this was used as the drainage index.
(2) Drying Index After heating both ends of the sample at 10 cm with a heat gun so as not to break the coating even if the sample is cut, the sample is cut to 10 cm and the sample mass is measured (M0). This is immersed in water at room temperature for 5 minutes, then taken out with tweezers and its mass is measured (Mw), then the sample (heat treatment part) is clipped with a clip at 20 ° C. and 65%, and mass after 5 minutes (M5), the mass after 10 minutes (M10) was measured, and the following formula:
Drying index = (M5-M10) / M5
The drying index was determined by

(3) Inner conductor covering index In order to visually judge the state where the inside can not be seen, the inner conductor covering index ◎, which can not see at all whether or not the inner conductor flickers when relaxed and stretched 〇, a little visible △, a visible x, and ranked according to the following criteria.
Inner conductor covering index When relaxed 30% Elongated
5 ◎ ◎
4 〇 〇
3 ○ △
2 × ×
1 × ×

(4) Internal Conductor Identification Index In order to visually determine the state in which the interior is visible, the internal conductor identification index can roughly identify whether or not the internal conductor can be firmly viewed when relaxed and stretched. The ranks were divided on the basis of the following criteria, with 識別 being able to identify somehow and 識別 not able to be identified.
Internal conductor identification index 30% extension time
5 ◎ ◎
4 ◎ ◎
3 〇 〇
2 × △
1 × ×

(5) Texture Index Texture: Based on the degree of touch and gloss, each of the seven monitors selected one of the four ranks, and the ranks were divided as follows from the number of people who chose it.
Feel gloss
There are 4 solid 4 points
Slightly firm 3 points Slightly 3 points
Slightly different 2 points almost not 2 points
Not one point Not one point

Texture Index Total Evaluation Score
Sum of touch feeling score + gloss degree score
5 49 49
4 42 42
3 35 35
2 21 21
1 <21

(6) Thickness of Outer Coating Layer The outer diameter of the intermediate before coating each outer coating layer and the outer diameter after coating are measured with a caliper, and the following formula:
Thickness of outer covering layer = {(outer diameter of intermediate after covering outer covering layer) − (outer diameter of intermediate before covering outer covering layer)} / 2
It asked for.

[Examples 1 to 10, Comparative Example 1]
An EPDM (ethylene-propylene-diene rubber) having an outer diameter of 1.2 mm (manufactured by Okayasu Co., Ltd.) is used as a stretchable core, and a stretching ratio of 2. is obtained using a 16-barrel stringing machine (manufactured by Kokubun Limited). Arrange 4 flexible PVC wires (AWG 36 (7 / 0.05)) (4 colors of black, white, red and green) as conductor wires in the direction of Z twist while stretching at 0 times, S twist direction Eight polyester fibers (84 dtex (36 f)) were arranged on the fabric and braided to form a conductor portion, to obtain an intermediate having an outer diameter of 2 mm.

Using the obtained intermediate as a core, it is placed on a 16 bar stringing machine again, and 8 pieces of each of the predetermined insulating fibers are arranged in the Z twist direction and S twist direction, and wound per unit length during braiding The elastic wire having the outer covering layer was obtained by braiding with the number being T / m.
Table 1 shows each manufacturing condition of the stretchable wire other than the above. In the Table, the yarns of Ea and the EW 84 DT (36f) * 1 used are woolly processed polyester fibers, and PET and Ny represent polyethylene terephthalate and nylon, respectively.
The result of having evaluated the extendable electric wire obtained here by the method described above was shown in Table 1. According to Comparative Example 1 and Examples 1 and 2, a monofilament (for example, Ny 180 dt (1 f) * 2 * 8 * in the column of material in Table 1) is a monofilament for the multifilament coating. It can be seen that the addition of (which indicates that) makes it easy to remove the liquid (the removal index is small) and the drying is quicker (the improvement of the drying index).
From Examples 3 and 6, it can be seen that when the outer coating is composed of monofilaments having a single yarn fineness of 40 dt or more, the liquid is more easily drained (the drainage index is smaller). On the other hand, Example 4 is an example which combined the multifilament and the monofilament, and raised coverage, and Examples 5 and 9 are the examples which combined the difference in the monofilament denier, and raised coverage. It is understood that all of them are easy to be drained (small drainage index), quick to dry (large drying index), and show good coverage.
It can be seen from the comparison of Examples 7, 8 and 10 that the mixing ratio of monofilaments strongly influences the drainage property. It is found that the drainage property is improved and the drying property is also improved at a monofilament content of about 23 mass%, but the drainage property is further improved and the drying property is also improved when it exceeds 50 mass%.

[Examples 11, 12 and Comparative Example 2]
Using an EPDM (Okayasu Co., Ltd.) with an outer diameter of 2 mm as a stretchable core, and stretching at a stretching ratio of 2.0 times using a 16-barrel stringing machine (Kokubun Limited) In the direction of twist, four flexible PVC wires (AWG 28 (49 / 0.05)) (black, white, red, green 4 colors) are arranged as conductor wires, and polyester fibers (56 dtex (12 f) in the S twist direction. 8) were arranged and braided to form a conductor portion to obtain an intermediate having an outer diameter of 3.5 mm.

Using the obtained intermediate as a core, it is placed on a 16 bar stringing machine again, and 8 pieces of each of the predetermined insulating fibers are arranged in the Z twist direction and S twist direction, and wound per unit length during braiding The elastic wire having the outer covering layer was obtained by braiding with the number being T / m.
The result of having evaluated the extendable electric wire obtained here by the method described above was shown in Table 1.
Comparative Example 2 It can be seen that Comparative Examples 11 and 12 are easy to drain, drying is easy, and the texture is improved.

[Examples 13 and 14]
An EPDM (Okayasu Co., Ltd.) with an outer diameter of 1.2 mm is used as a stretchable core, and it is stretched at a stretching ratio of 2.0 times using a 16-barrel stringing machine (Kokubun Limited). In the direction of Z twist, 4 flexible PVC wires (AWG 36 (7 / 0.05)) 4 wires (black, white, red, green 4 colors) are arranged as conductor wires, and nylon monofilament (100 dt (100 dt) 1f) Transparent 8 pieces of Uniplus Co., Ltd. were arranged and braided to form a conductor portion to obtain an intermediate having an outer diameter of 2 mm.

Using the obtained intermediate as a core, it is placed on a 16 bar stringing machine again, and 8 pieces of each of the predetermined insulating fibers are arranged in the Z twist direction and S twist direction, and wound per unit length during braiding The elastic wire having the outer covering layer was obtained by braiding with the number being T / m.
The result of having evaluated the extendable wire obtained here by the method described above was shown in Table 2.
From the comparison of Example 1 and Example 13, and the comparison of Example 5 and Example 14, it is understood that the liquid drainage property is improved (the liquid drainage index is reduced) by monofilarizing the Osae yarn. .

[Examples 15, 16]
In the same manner as in Example 1 except that a transparent monofilament was used for the outer covering, stretchable electric wires (Examples 15, 16) having an outer covering layer capable of identifying the inner conductor were obtained.
Table 3 shows the evaluation results of the drainage index of the obtained expandable electric wire, only the core portion (Reference Example 1), and the copper wire wound product (Reference Example 3). It can be seen that by using a rubber material having a small drainage index on the core and covering the core with a transparent monofilament, it is possible to obtain an expandable electric wire that is easy to visually recognize the internal conductor and that dries quickly.

[Reference Examples 1 to 3]
In the same manner as in Example 1, Reference Example 1 shows the values obtained by determining the outer diameter of EPDM φ 1.2, the drainage index, and the drying index.
Reference Example 2 is a woolly nylon (black dyed yarn of 230 dtex) with a stretch ratio of 4.2 times under a core of a leuca core material (a polyurethane elastic long fiber of 940 dtex (product name: Leica manufactured by Asahi Kasei Corporation) and a stretch ratio of 4.2 times. ) Was wound with a lower twist of 700 T / M and an upper twist of 500 T / M to obtain a double cover yarn.The obtained double cover yarn was wound on a bobbin for making a string, and eight such bobbins were punched. A braid is produced by arranging four strings in the S direction and four strings in the Z direction evenly with a stringing machine (made by Sakurai Iron Works) and using it as a core material with a diameter of 1.8 mm. Shows the result of measuring.
Reference Example 3 is an intermediate having an outer diameter of 2 mm described in Example 1, and shows a conductor portion as referred to in the present invention, and shows the results of measuring the drainage index and the drying index of the conductor portion. In addition, comprehensive evaluation was evaluated centering on a drainage index, and the following criteria judged.
脱 A drainage index of 5 or less and an inner conductor covering index or an inner conductor identification index and a texture index of 4 or more.
も の The drainage index is 5 or more and 10 or less, but the inner conductor coating index or the inner conductor identification index and the texture index are both 5.
○ The drainage index is 5 or less and the inner conductor covering index or the inner conductor identification index and the texture index are both 3 or more.
○ Dewatering index is 5 or more and 10 or less, but inner conductor covering index or inner conductor identification index and texture index are both 4 or more x Dewatering index is 15 or more.
× Those with a drainage index of 10 or more but less than 15 but both the inner conductor covering index or the inner conductor identification index and the quality index are less than 3 以外 Other than the above

  The expandable electric wire according to the present invention includes earphones, headphones, head mounted displays, wiring of game machines, wiring of electric guitars, electric costumes, EMS suits, vital data measuring devices, motion capture, protective clothing with electronic devices, games It is suitably used for all applications where sweat is attached, such as a controller (including a human-body-worn type), etc., which wears on the body, etc., etc. and sweat is attached and the wiring is required to have a high-class feeling. For example, it is suitable also for wiring of body wearing apparatus other than the above, clothes wearing apparatus, etc. In addition, it can be suitably used for wiring of various other robots (industrial robots, home robots, hobby robots etc.), aids for rehabilitation, fields, and all kinds of electric products.

1 elastic core portion 2 resin-coated conductor wire 3 outer covering layer 4 sample 5 kim towel 6 clip

Claims (9)

  A conductor comprising a stretchable core, a resin-coated conductor wire wound and / or braided on the outer periphery of the stretchable core, and a monofilament having a single yarn fineness of 40 dt or more on the outer periphery of the conductor. An expandable electric wire having an outer covering layer containing 20% by mass or more and having a drainage index of 15 or less.   The expandable electric wire according to claim 1, wherein a drying index of the expandable electric wire is 0.1 or more.   The telescopic wire according to claim 1 or 2, wherein the drainage index of the core portion is 5 or less.   The telescopic wire according to any one of claims 1 to 3, wherein the drainage index of the conductor portion is 5 or less.   The expandable electric wire according to any one of claims 1 to 4, wherein the outer covering layer comprises two or more types of insulating fibers each having a single yarn fineness different by 20% or more.   The expandable electric wire according to any one of claims 1 to 5, wherein an inner conductor coating index of the expandable electric wire is 3 or more.   The expandable electric wire according to any one of claims 1 to 6, wherein an inner conductor identification index of the expandable electric wire is 3 or more.   The expandable electric wire according to any one of claims 1 to 7, wherein a texture index of the expandable electric wire is 3 or more.   The monofilament constituting the outer covering layer includes at least one monofilament selected from the group consisting of nylon, polyester, polyethylene terephthalate, polybutylene terephthalate, polyethylene naphthalate, and fluorocarbon resin. The telescopic electric wire described in Item.

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