JPH0714515U - Electric wire / cable deterioration diagnosis tool - Google Patents

Abstract

(57) [Abstract] [Purpose] Electric wire / cable that can perform non-destructive and highly reliable diagnosis of electric wire / cable containing halogen-based material in the outermost coating layer easily and in a short time. Provide a deterioration diagnosis tool. [Structure] A hydrogen halide detector 3 arranged on the surface of a low-voltage cable 1 having a vinyl chloride resin coating on the outermost layer.
And a transparent airtight film 4 wrapped around this and covering and fixing the hydrogen halide detector 3 on the surface of the low-voltage cable 1.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a wire / cable deterioration diagnosing tool, and more particularly to a wire / cable deterioration diagnosing tool used for diagnosing a wire / cable whose outermost coating layer is made of a halogen-based material.

[0002]

[Prior art]

 As urban functions have advanced in recent years, the demand for reliability of electric wires and cables has increased, and along with this, the demand for deterioration diagnosis of these has also increased. Conventionally, the deterioration diagnosis technology for electric wires and cables has been to evaluate the degree of deterioration of medium and high voltage cables by measuring the electrical characteristics such as tan δ and DC leakage current in a live state (non-destructive). It is commonly used and is almost established in terms of technology. However, for low-voltage cables and insulated wires, the wires / cables are removed and subjected to destructive tests such as tensile tests and electrical destructive tests, and the results are used to evaluate the soundness of the wires / cables in similar operating conditions. There are only some ways to do it. However, such methods that require the removal and destruction of electric wires / cables are applicable to electric wires / cables that are laid in places such as nuclear power facilities where the removal work is difficult and the work time is not long. Is difficult.

On the other hand, recently, as a non-destructive diagnosis method, a method has been proposed in which the deterioration of a cable sheath or the like causes it to become hard. However, this method is also difficult to apply to electric wires / cables for nuclear facilities because it takes time to diagnose, and since it is a mechanical method, it is not reliable when applied to electric wires / cables with long span intervals. There is a problem with.

[0004]

[Problems to be solved by the device]

 As described above, deterioration diagnosis is required not only for medium- and high-voltage cables, but also for low-voltage cables and insulated wires, but the conventionally known methods require removal and destruction of wires / cables, and time-consuming diagnosis. There are problems such as lack of reliability of the diagnosis result.

Therefore, the inventors of the present invention are keen to develop a method that can be applied to low-voltage cables and insulated wires and that can perform nondestructive and highly reliable deterioration diagnosis easily and in a short time. As a result of repeated research, in the case of wires / cables that have a coating layer made of a halogen-based material as the outermost layer, the desorption of hydrogen halide from the coating layer may affect electrical performance such as tan δ and tensile strength. It has been found that it is a more accurate indicator of deterioration diagnosis than mechanical performance. In other words, changes such as tan δ and tensile strength begin when deterioration has progressed considerably, whereas hydrogen halide release begins at an early stage of deterioration, and the release rate increases rapidly with the progress of deterioration. Was confirmed from various experiments.

The present invention has been made based on such knowledge, and detects the release of hydrogen halide from the outermost coating layer of an electric wire / cable including the outermost coating layer made of a halogen-based material. In order to provide a wire / cable deterioration diagnosis tool capable of performing non-destructive and highly reliable diagnosis of a wire / cable containing a halogen-based material in the outermost coating layer easily and in a short time. To aim.

[0007]

[Means for Solving the Problems]

 A first invention of the present application is a hydrogen halide detector that changes color when contacted with hydrogen halide, and a transparent airtight package that covers and fixes the hydrogen halide detector on the outer peripheral surface of the wire or cable to be diagnosed. A wire / cable deterioration diagnosis tool characterized by having a covering material.

A second invention of the present application is to provide a transparent airtight encapsulating material that envelops the outer peripheral surface of an electric wire / cable to be diagnosed with a substance that discolors in contact with hydrogen halide in the presence of water. A wire / cable deterioration diagnosing tool characterized by containing a substance having water retention property.

[0009]

[Action]

 In the first electric wire / cable deterioration diagnosing device of the present application, the hydrogen halide detector is placed on the outer peripheral surface of the electric wire / cable to be diagnosed, and is covered and fixed with a transparent airtight wrapping material to form a hydrogen halide. Just by visually observing the discoloration of the detector, the second wire / cable deterioration diagnosing device of the present application covers the outer circumference of the wire / cable to be diagnosed with a transparent airtight wrapping material and discolors it. It is possible to diagnose the deterioration of electric wires / cables containing a halogen-based material in the outermost coating layer nondestructively and by a simple work in a short time only by visually observing. Moreover, withdrawal begins at the stage of rapid deterioration, and with deterioration, the hydrogen halide, whose release rate increases significantly, is captured and diagnosed with a color that changes sharply, so the results are highly reliable.

[0010]

【Example】

 Next, an embodiment of a wire / cable deterioration diagnosing tool according to the present invention will be described with reference to the drawings.

Embodiment 1 FIG. 1 is a perspective view showing a state in which an electric wire / cable deterioration diagnosing tool of an embodiment of the present invention is attached to a low-voltage cable whose outermost layer is coated with vinyl chloride resin.

As shown in FIG. 1, an electric wire / cable deterioration diagnosing tool 2 of this embodiment has a hydrogen halide detector 3 arranged on the surface of a low-voltage cable 1 having a vinyl chloride resin coating on the outermost layer. And a transparent airtight film 4 which is wrapped around and fixed to the surface of the low-voltage cable 1 by covering the hydrogen halide detector 3 thereon.

As the hydrogen halide detector 3, various pH test papers that change color at pH 6.5 or less, such as Congo red test papers that change color in the range of pH 2.5 to 4.0, are used. Further, it is desirable to use a transparent and non-halogen rubber / plastic film as the transparent airtight film 4. Specifically, crosslinked polyethylene, polyethylene, ethylene vinyl acetate copolymer (EVA), ethylene acrylic ester copolymer is used. Examples include polyolefin-based films such as polymer (EEA), polyester-based films, acrylic resin-based films, polyethylene terephthalate-based films, polybutylene terephthalate-based films, polyisoprene-based films, or heat-absorbing materials of these. .

In the present invention, instead of such a transparent airtight film 4, a transparent airtight tape made of the same material may be used. In this case, the transparent airtight tape, for example, a wrap width 1 It may be fixed by wrapping it over the hydrogen halide detector 3 at / 2. It is also possible to use a heat-shrinkable tube made of, for example, cross-linked polyethylene or EVA. Cut the heat-shrinkable tube in the length direction so that it can be attached to the outer circumference of the wire / cable, cover it on the outer circumference of the wire / cable, and heat-shrink it before mounting (the same applies when using a heat-shrinkable film) .). A fastener that can be opened and closed by attaching a fastener to the cut end is advantageous in terms of ease of mounting and airtightness described later.

When mounting such a transparent airtight film 4 or a transparent airtight tape, the overlapping portion or the end portion is sealed and fixed with an adhesive or the like to ensure the fixation of the hydrogen halide detection body 3. At the same time, it is desirable to maintain airtightness with the cable 1. By maintaining the airtightness, the hydrogen halide detector 3 is prevented from being dried and the discoloration becomes clear.

In order to diagnose the deterioration of the low-voltage cable 1 using the electric wire / cable deterioration diagnosing tool 2 having the above-described configuration, after mounting on the outer peripheral surface of the low-voltage cable 1 as described above, a tubular mantle heater, ribbon heater, dryer, etc. The hydrogen halide detector 3 may be heated to 150 to 200 ° C. using an appropriate heating means to measure the time until discoloration. From that time, the deterioration state, for example, of a standard sample previously obtained may be measured. It can be judged by comparing with it. Further, instead of forced heating in this way, it may be observed periodically for a long period of time in a normal use state.

The graph shown in FIG. 2 shows that (a) Co ⁶⁰ gamma ray irradiation and (b) heating at 121 ° C. were performed on a 600 V special heat-resistant vinyl chloride insulated cable having a flame-resistant heat-resistant vinyl chloride sheath in the outermost layer. For the cables with different degrees of deterioration obtained by forcibly degrading the irradiation amount and heating time by using two methods, sheath tan δ, elongation, and halogenation by the above-mentioned wire / cable degradation diagnostic tool. The discoloration time (forced heating at 150 to 200 ° C.) of the hydrogen detector 3 was measured, and these measurement results are summarized as changes in tan δ, elongation, and discoloration time with respect to the degree of deterioration.

As is clear from this graph, the discoloration time greatly changes at an early stage of deterioration rather than tan δ and elongation, and the discoloration time further shortens as the deterioration further progresses. By measuring the discoloration time, it can be seen that diagnosis can be performed more accurately than tan δ and elongation.

Example 2 As shown in FIG. 3, the electric wire / cable deterioration diagnosing device of the present example is a substance that changes color by contacting with hydrogen halide in the presence of water on a transparent airtight film 5, for example. A hydrogen halide detection film 6 composed of a mixture of Congo red (C ₃₂ H ₂₂ N ₆ Na ₂ O ₆ S ₂ ) that changes color in the range of pH 3.0 to 5.2 and a water-retaining polymer is laminated and integrated. ing. As the transparent airtight film 5, the same kind as in the case of Example 1 can be used. Further, examples of the water-retaining polymer include EVA, polyisoprene, polyvinyl alcohol, acrylic resins, and copolymers of these. The content of Congo red in the hydrogen halide detection film 6 is preferably about 0.5 to 5% by weight.

In the present invention, when a crosslinked polyethylene or polyester film is used for the transparent airtight film 5, after the hydrogen halide detection film 5 is laminated and integrated on the transparent airtight film 5, it is heated. It may be stretched to impart heat shrinkability (for example, a heat shrinkage rate of 150%). Further, fasteners may be attached to both ends thereof so as to be formed into a circular tubular shape that can be opened and closed. It can be easily attached to electric wires and cables and can be made airtight.

In such a wire / cable deterioration diagnosing tool, although not shown in the drawings, the hydrogen halide detection film 6 side is wrapped or vertically attached to the outer circumference of the wire / cable, preferably at an overlapping portion or Attach the ends by sealing and fixing with an adhesive or the like. (For heat-shrinkable ones, cover the outer circumference of the wire / cable and heat shrink.) Then, as in the case of Example 1 above, the deterioration of the electric wire / cable is diagnosed by forcibly heating or observing the discoloration of the hydrogen halide detection film 6 by continuing normal use as it is. be able to. That is, Congo red contained in the hydrogen halide detection film 6 discolors due to the action of hydrogen halide generated from electric wires / cables and the water retained by the water-retentive polymer, and the discoloration time is Since it changes according to the degree of deterioration of the cable, the degree of deterioration can be determined from the change time.

It should be noted that both or one of the transparent airtight film 5 and the hydrogen halide detection film 6 is blended with at least one of an ultraviolet absorber and boron carbide (B ₄ C) to be a nuclear power wire. -Useful for cables. In other words, by attaching this to the electric wire / cable for nuclear power, it is possible not only to diagnose the deterioration but also to protect the electric wire / cable from radiation. Conventionally, as a radiation countermeasure for this type of electric wire / cable, a method of winding lead tape or kneading lead into the sheath has been used. However, such a problem can be solved and excellent radiation resistance can be imparted. The contents of the above ultraviolet absorber and boron carbide (B ₄ C) are about 1 to 5% by weight and 1 to 10% by weight, respectively, in order to prevent bleeding on the surface and deterioration of transparency. The degree is appropriate.

In the case of Example 2, Congo red and the water-retaining polymer may be contained in the transparent airtight film 6 instead of being laminated on the transparent airtight film 5. That is, the material forming the transparent airtight film 6 is mixed with congo red and a water-retaining polymer and formed into a film, which is also attached to the outer circumference of the electric wire / cable as in the case of Example 2. However, by observing the discoloration of the film by heating it forcibly or continuing to use it as it is, it is possible to accurately diagnose the deterioration of the wire or cable. In this case, the preferred ranges of the contents of Congo red and the water-retaining polymer are 0.5 to 5 parts by weight and 10 to 50 parts by weight, respectively, per 100 parts by weight of the base polymer. Further, in this case, it is desirable that a filler such as silicon carbide or talc be blended together with Congo red and the water-retaining polymer. A suitable amount of the compound is 0.5 to 10 parts by weight per 100 parts by weight of the base polymer.

[0024]

[Effect of device]

 As described above, according to the electric wire / cable deterioration diagnosing device of the present invention, it is possible to clearly catch the deterioration and the discoloration due to the hydrogen halide that separates from the outermost coating layer. With wires and cables containing halogen-based materials, it is possible to easily and reliably perform deterioration diagnosis in a short time with existing equipment.

[Brief description of drawings]

FIG. 1 is a perspective view showing a state in which a wire / cable deterioration diagnosing tool according to an embodiment of the present invention is attached to a cable.

FIG. 2 is a graph showing the relationship between the deterioration degree of a cable, tan δ, elongation, and discoloration time by the wire / cable deterioration diagnosing tool of the present invention.

FIG. 3 is a cross-sectional view showing an electric wire / cable deterioration diagnosing tool according to another embodiment of the present invention.

[Explanation of symbols]

 1 ………… Low-voltage cable 2 ………… Electric wire / cable deterioration diagnostic tool 3 ………… Hydrogen halide detector 4, 5 ………… Transparent airtight film 6 ………… Hydrogen halide detection film

Claims (2)

[Scope of utility model registration request] 1. A hydrogen halide detector that discolors upon contact with hydrogen halide, and a transparent airtight covering material for fixing the hydrogen halide detector on the outer peripheral surface of the wire or cable to be diagnosed. A wire / cable deterioration diagnosing tool characterized by having. 2. A transparent airtight covering material for covering the outer peripheral surface of an electric wire / cable to be diagnosed, which contains a substance which is discolored by contact with hydrogen halide in the presence of water and a substance having water retention property. A tool for diagnosing electric wire / cable deterioration that is characterized by: