WO2010073861A1 - Tape for electric wire - Google Patents

Abstract

A tape which has enhanced heat resistance, flame retardancy, and wearing resistance and is suitable for use in bundling a group of electric wires which will be laid in a high-temperature environment.  The tape is configured using the same yarns (10) each composed of high-function fiber filaments (11) and general-purpose fiber filaments (12), as a warp (3) and a weft (4).  The high-function fiber filaments are superior to the general-purpose fiber filaments in heat resistance, flame retardancy, and wearing resistance.  The high-function fiber filaments are of at least one kind selected from para-aramid fibers, polyarylate fibers, ultrahigh-molecular polyethylene fibers, glass fibers, and polyphenylene sulfide fibers.  The general-purpose fiber filaments comprise at least one selected from polyesters, polyethylene, and polypropylene.

Description

Wire tape

The present invention relates to a tape for electric wires, and in particular, is suitably used as a binding tape that is wound around the outer periphery of a wire group of a wire harness arranged in a vehicle.

Conventionally, a tape disclosed in Japanese Patent Application Laid-Open No. 2003-272447 (Patent Document 1) or the like has been used for bundling and protecting a wire group of a wire harness routed in a vehicle and preventing interference by an external interference material. Yes. The tape is coated with an adhesive on one surface, and is wound around the outer peripheral surface of the wire harness W / H in a spiral manner to bind the electric wire group.
In recent years, instead of the tape, a wire group is often passed through a tube such as a corrugated tube to bind and protect the wire group of the wire harness.

Since the corrugated tube is relatively hard and heavy, wiring work of the wire harness in the vehicle is not easier than the tape. In addition, tubes such as corrugated tubes are provided with slits in the axial direction, and after inserting a group of wires from the slits, tapes are further wound around the periphery of the corrugated tubes to close the slits, increasing work man-hours. There is a problem to do.
Therefore, the tape conventionally used rather than tubes, such as a corrugated tube, is being reviewed.

ビ ニ ル Vinyl chloride tape is usually used as the wire harness binding tape. However, the vinyl chloride tape has room for improvement in terms of flame retardancy, heat resistance, and wear resistance for bundling wire harnesses routed in vehicles. *

From the above viewpoint, a tape woven with polyester fiber is also used as a heat-resistant tape. However, the tape has low flame resistance and wear resistance, and the polyester cloth tape does not hydrolyze. The use in the engine room is unsuitable.

JP 2003-272447 A

The present invention has been made in view of the above problems, and has heat resistance, flame retardancy, and wear resistance that can be used for binding a wire harness routed in an engine room, and further causes hydrolysis. The problem is to provide a wire tape that is difficult to wire.

In order to solve the above-mentioned problems, the present invention knitted using the same yarn composed of a high-performance fiber strand and a general-purpose fiber strand as warp and weft, and the high-performance fiber strand is a general-purpose fiber strand. It is superior in heat resistance, flame retardancy, and abrasion resistance than wire, and the high-performance fiber strand is selected from para-aramid fiber, polyarate fiber, ultra-high molecular weight polyethylene fiber, glass fiber, and polyphenylene sulfide fiber The wire tape is characterized in that at least one selected from polyester, polyethylene, and polypropylene is used as the general-purpose fiber strand.
In addition, when using a resin thread | yarn as said high functional fiber strand and a general purpose fiber strand, it is set as resin which does not contain an electroconductive component. In addition, it is preferable to use a non-halogen resin.

As described above, using the high-performance fiber strand that is superior in flame retardancy and wear resistance compared to a tape woven with polyester fibers that have been used in the past, the polyester-based, polyethylene-based, polypropylene-based, etc. Threads supplemented with general purpose fiber strands are used. As described above, the yarn used in the present invention has improved flame retardancy and abrasion resistance compared to the yarn of general-purpose fibers, and has a greater possibility of causing hydrolysis than a tape woven with conventional polyester fibers. Has been reduced. Therefore, in a vehicle, it can be used also as a tape for bundling wire harnesses routed in the engine room, which is the strictest environment for use of the tape.

Although slightly different depending on the type used as the high-performance fiber, the heat resistance can be enhanced and flame retardancy can be imparted as compared with the tape woven with the polyester fiber.

The blending ratio of the high-performance fiber strand to the general-purpose fiber strand is preferably 10 to 50%: 90 to 50%.
The blending ratio is preferably 20-30% for high-performance fiber strands.
As described above, the blending ratio of the high-performance fiber strand is set to 10% or more. If it is less than 10%, flame retardancy and wear resistance cannot be improved much, and more than 50%. Then, the elongation, tensile force, and flexibility of the tape are reduced, and the weight is increased and the cost is increased.

Each of the yarns is composed of a plurality of the high-performance fiber strands and the general-purpose fiber strands arranged in the same direction, and each of the high-performance fiber strands and the general-purpose fiber strands one by one or plural The books are alternately arranged in parallel.
It is preferable to arrange high-performance fiber strands and general-purpose fiber strands alternately one by one. However, if the percentage of high-performance fiber strands is small, multiple general-purpose fiber strands can be combined with high-performance fiber strands. It is preferable to arrange them so as to be sandwiched between them.

Furthermore, in order to increase the heat resistance and wear resistance of the general-purpose fiber strand, it is preferable to crosslink the general-purpose fiber strand by irradiating with ionizing radiation after forming a tape.
The general-purpose fiber strand may be previously irradiated with ionizing radiation to be crosslinked, and the general-purpose fiber strand may be knitted with the high-performance fiber strand.

In order to crosslink the general-purpose fiber strand with ionizing radiation, a crosslinkable monomer is blended in the resin component such as polyester, polyethylene, polypropylene, etc., and the gel fraction is irradiated by ionizing radiation at 100 kGy or more and 400 kGy or less. It is preferable that the crosslinking rate is 50% or more.

The tape of the present invention hardly hydrolyzes, and can therefore be used for bundling the wire group of a wire harness routed in the engine room.

As for the tape of this invention, the adhesive is apply | coated to the one surface, and it is set as the adhesive tape.
The pressure-sensitive adhesive may be applied to the entire surface of one side of the tape, or may be continuously applied along one end edge or both end edges in the length direction.
Furthermore, you may apply | coat an adhesive to both surfaces as needed.

As described above, the electric wire tape of the present invention is most preferably used as an electric wire group binding tape for a wire harness routed in an automobile. However, the electric wire tape is used for binding an electric wire group similar in use condition to an automobile wire harness. It can also be suitably used as a tape.

As described above, the wire tape of the present invention is excellent in heat resistance, flame retardancy, wear resistance, and hardly hydrolyzes. In particular, it can be suitably used as a binding tape for a wire group of a wire harness routed in an engine room.

1st embodiment of this invention is shown, (A) is the whole schematic diagram which shows the state which wound the tape of this invention around the wire harness, (B) is the elements on larger scale. (A) is a partially enlarged plan view of the tape, (B) is an enlarged view showing a thread, and (C) is a schematic perspective view.

Hereinafter, 1st embodiment of the tape for electric wires of this invention is described.
As shown in FIG. 1 (A), the wire tape 1 of the present invention is half the width of the tape as shown in FIG. 1 (B) on the outer peripheral surface of the wire harness 2 composed of the wire group W routed in the automobile. It is used to wind and wrap in half-wrapping, or rough winding, etc. In addition, it can be used also for the partial winding wound partially in the length direction of an electric wire group, and is used for the same use location as the tape for electric wires conventionally used widely.

The tape 1 is composed of a fabric tape formed by knitting warp yarns 3 and weft yarns 4 as shown in an enlarged view in FIG. 2 (A). As shown in the schematic perspective view of FIG. An adhesive 5 is applied to the entire surface.

The warp yarn 3 and the weft yarn 4 are made of the same yarn as shown in FIG. 2 (B), and are knitted with a plain weave knitted for each pitch in both the transverse direction (course direction) and the longitudinal direction (the wale method).

The yarns 10 constituting the warp yarn 3 and the weft yarn 4 are arranged such that both sides of the high-performance fiber strand 11 indicated by a thick solid line are aligned with the general-purpose fiber strand 12 in the same direction. One set of the general-purpose fiber strands 12a and 12b sandwiched between the high-performance fiber strands 11a is aligned, and the high-function fiber strands 11: general-purpose fiber strands 12 are arranged at a ratio of 1: 2. The compounding ratio is 33% for the high-performance fiber strand 11 and 66% for the general-purpose fiber strand 12.
One yarn 10 has 9 to 11 high-performance fiber strands 11 and 19 to 21 general-purpose fiber strands 12, for a total of 28 to 32 strands.

The high-performance fiber strand 11 is superior in heat resistance, flame retardancy and wear resistance to the general-purpose fiber strand 12. Examples of the material of the high-performance fiber strand include para-aramid fiber, polyarate fiber, ultra-high molecular weight polyethylene fiber, glass fiber, and polyphenylene sulfide fiber, and one of these is used, but a plurality of types are used. May be. In the present embodiment, para-aramid fibers are used.
As the general-purpose fiber strand 12, one type selected from polyester, polyethylene, and polypropylene is used, but a plurality of types may be used. In this embodiment, polyester fiber is used.

The warp 3 and the weft 4 made of the yarn 10 are knitted to make the tape 1 less susceptible to hydrolysis.
Moreover, the heat resistance which can be wired in the engine room of a vehicle is provided by making melting temperature into 120 degreeC or more.
The flame retardancy is equivalent to V-0 in the flame retardancy standard UL-94 and has an oxygen index (OI value) of 23.5 or more.
About abrasion resistance, it is supposed that it has 1000 mm or more of tape abrasion tests (in the state which used No. 150 tape and loaded 4.5N).

As described above, the tape 1 is not limited to the general-purpose fiber strand 12 such as polyester, but the high-performance fiber strand 11 having superior heat resistance, flame retardancy, and wear resistance than the general-purpose fiber strand. 12 is knitted as warp yarn 3 and weft yarn 4, so that the wire harness is routed in a high temperature environment, and further, the wire of the wire harness to be slid such as trunk lid, side door, slide seat, etc. It can be used as a group binding tape.
Furthermore, since hydrolysis hardly occurs, it can be suitably used as a binding tape for the wire group of the wire harness in the engine room.
In particular, since the tape 1 has a simple shape in which the warp yarn 3 and the weft yarn 4 are plain woven, it can be easily manufactured using existing equipment, and further, by adjusting the blending amount of the high-performance fiber strand 11, The required heat resistance, flame retardancy, and wear resistance can be easily imparted.
As described above, the tape 1 can be used in a wiring harness wiring location where tubes and sheets such as corrugated tubes are used instead of the vinyl chloride tape that is conventionally used. Therefore, the number of parts can be reduced and the cost can be reduced, the weight of the entire wire harness including the exterior material can be reduced, the fuel consumption can be improved, and the vehicle maintenance cost can be reduced.

Next, a second embodiment will be described.
In the tape of the second embodiment, the warp yarn and the weft yarn are knitted to form a tape, and then irradiated with ionizing radiation to crosslink general-purpose fiber strands made of polyester fibers. The heat resistance is further improved, and the melting temperature is 120 ° C.

The polyester fiber strand used as the general-purpose fiber strand is formed from a kneaded material containing 1 to 3 parts by weight of triallyl isocyanurate or triallyl cyanurate as a crosslinkable monomer with respect to 100 parts by mass of polyester.
The general-purpose fiber strand is knitted using the same high-performance fiber strand as in the first embodiment, and the yarn is knitted using warp and weft.
After knitting into a tape, ionizing radiation is irradiated at 100 to 400 kGy, so that the crosslinking rate of the polyester fiber strand is 50% or more.
Since other configurations are the same as those of the first embodiment, description thereof is omitted.

In the tape of the second embodiment, when the melting point of the general-purpose fiber strand does not have a shape holding force under the engine room temperature condition, it is crosslinked by irradiating with ionizing radiation to increase the melting point, thereby increasing the shape holding force. Since it gives and eliminates generation | occurrence | production of hydrolysis, it can be set as a more useful tape as an electric wire binding tape of the wire harness routed in an engine room.

In addition, a crosslinking chemical initiator may be blended with the resin component used as the general-purpose fiber strand to cause crosslinking.

DESCRIPTION OF SYMBOLS 1 Tape 2 Wire harness 3 Warp yarn 4 Weft 10 Thread 11 High-performance fiber strand 12 General-purpose fiber strand W Electric wire group

Claims (6)

1. The same yarns composed of high-performance fiber strands and general-purpose fiber strands are knitted as warp and weft yarns, and the high-performance fiber strands have higher heat resistance, flame resistance and resistance than general-purpose fiber strands. The general-purpose fiber element is excellent in wear and uses at least one selected from para-aramid fiber, polyarate fiber, ultra-high molecular weight polyethylene fiber, glass fiber, and polyphenylene sulfide fiber as the high-performance fiber strand. A wire tape characterized by using at least one selected from polyester, polyethylene, and polypropylene as a wire.
2. 2. The electric wire tape according to claim 1, wherein a blending ratio of the high-performance fiber strand to the general-purpose fiber strand is 10 to 50%: 90 to 50%.
3. Each of the yarns is composed of a plurality of the high-performance fiber strands and the general-purpose fiber strands arranged in the same direction, and each of the high-performance fiber strands and the general-purpose fiber strands one by one or plural The wire tape according to claim 1 or 2, wherein the wires are alternately arranged in parallel.
4. The wire tape according to any one of claims 1 to 3, wherein the general-purpose fiber strand is cross-linked by irradiation with ionizing radiation.
5. The electric wire tape according to any one of claims 1 to 4, wherein an adhesive is applied to one surface to form an adhesive tape.
6. The electric wire tape according to any one of claims 1 to 5, which is used as an electric wire group binding tape of a wire harness routed in an automobile.

Images