JP2756169B2 - Manufacturing method of colored aluminum transmission line and its accessories - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a method of manufacturing a colored aluminum power transmission line whose surface is colored in an achromatic color called Munsell color chart system, and a method of manufacturing an accessory thereof. The present invention relates to a method for manufacturing an aluminum power transmission line having a dark color tone in harmony with the overhead wire environment and accessories such as a spiral rod and a jumper device used for the overhead wire.

(Prior Art) In general, the surface of an aluminum power transmission line and its accessories is shining silver white and has a very high reflectance to light. For aluminum transmission lines and spiral rods and jumpers used to wire them, in order to harmonize them with the wiring environment, surface roughening by sand blasting on the surface or surface by paint etc. Has been painted.

By performing such a treatment, the reflectivity of light on the surface of the aluminum power transmission line and its accessories is reduced, and harmony with the overhead wire environment is achieved.

(Problems to be Solved by the Invention) However, in the case of the above-described sand blasting, it is difficult to darken the color tone of the processing surface of the accessory with the obtained aluminum power transmission line. Therefore, the surface color cannot be harmonized with the overhead wire environment.

In the case of a coating treatment, the color tone and lightness of the formed surface coating film cannot be maintained for a long period of time, and the hydrophilicity of the surface is hindered, resulting in adhesion of water droplets. The problem of increasing the audible noise due to corona discharge is inevitable.

The present invention does not cause the above-described problems,
The color tone of the surface is dark, and the color tone is the desired color tone in the Munsell color chart system achromatic array (Munsell display brightness is 5 or less)
It is an object of the present invention to provide a method of manufacturing an aluminum power transmission line and its accessories having a color tone which is maintained for a long period of time and has a color tone that matches the overhead line environment.

(Means / Functions for Solving the Problems) In order to achieve the above object, in the present invention,
Aluminum transmission lines and their accessories
The surface of the aluminum transmission line and its accessories is immersed in hot water containing at least one anion selected from the group consisting of silicate ions, sulfate ions, phosphate ions, and nitrate ions, and the surface of the aluminum transmission line and its accessories is colored Munsell. The present invention provides a method for manufacturing a colored aluminum power transmission line and its accessories, which are colored to a desired color tone in an achromatic array of votes.

The color tone of the surface can be adjusted to an arbitrary brightness to make it darker, so that harmony with the overhead wire environment can be realized, and the surface of the color tone is excellent in weather resistance, and the effect is long-term. Since it is maintained and has good hydrophilicity, it is possible to reduce audible noise due to corona discharge generated due to water droplets adhering to the surface of the power transmission line.

Such a surface coloring treatment can be easily realized by immersing aluminum in hot water described below.

The hot water used contains one or more of carbonate ion, silicate ion, sulfate ion, phosphate ion, and nitrate ion. These anions act on the hydrated oxides formed on the surface of the aluminum transmission line and its accessories, causing it to turn dark.

If the content of these anions is too small, the above-mentioned effects will not be sufficiently exerted, and the surface tone of the treated aluminum power transmission line and its accessories will not be darkened. Since the problem of preventing the formation of hydrated oxides on the surfaces of the electric wires and their accessories and deteriorating the coloring effect starts to occur, the total content thereof is preferably about 5 to 200 ppm.

Sources of these metal ions include, for example, CaCO ₃ ,
Carbonates such as BaCO ₃ and Na ₂ CO ₃ ; Na ₂ O.SiO ₂ , K ₂ O.SiO ₂
Silicates such as ZnSO ₄ , FeSO ₄ , CuSO ₄ and CaSO ₄ ; phosphates such as KH ₂ PO ₄ , Na ₃ PO ₄ and BaHPO ₄ ; Ca (N
Nitrates such as O ₃ ) ₂ , NaNO ₃ , Fe (NO ₃ ) ₂ ; These salts may be dissolved in hot water so that each anion has a predetermined concentration. At this time, each salt dissociates in hot water, and the sodium ion, potassium ion, calcium ion, magnesium ion, iron ion, copper ion, zinc ion, etc. generated at that time have good surface coloring along with each anion. Have a significant effect.

It is effective to add an additive such as ammonia water or triethanolamine to the hot water, since the brightness of the color tone on the surface can be reduced. As the amount of added ammonia water, for example, in the case of 28% ammonia water,
It may be about 0.1 to 1.5% by volume, and in the case of triethanolamine, it may be about 0.1 to 1.0% by weight.

Further, the pH of the hot water is preferably adjusted to 7 to 11. If the pH of the hot water is outside the above range,
This is because the time required for surface coloring becomes longer and at the same time it is difficult to form a dark-colored surface.

The temperature of hot water is controlled at 80 to 100 ° C. If the temperature of the hot water is lower than 80 ° C., the time required for coloring becomes long, which is not practical, and the brightness of the surface after the treatment increases, and the harmony with the overhead wire environment deteriorates. A preferred state of hot water is a boiling state. At this time, the surface of the treated aluminum power transmission line and its accessories becomes dark in a short time.

Also, prior to immersion in hot water, if the surface of the aluminum power transmission line and its accessories is subjected to, for example, sand blasting to roughen the surface in advance, the oil and the like adhering to the surface by this sand blasting can be obtained. Is removed, and the realization of a surface state having a uniform color tone and lightness is promoted, and the obtained surface has good hydrophilicity, which is preferable.

Furthermore, if the immersion time of the aluminum power transmission line and its accessories in hot water is too short, the color tone change of the surface will be insufficient, and even if the treatment is performed for an excessively long time, only the productivity will be reduced. It is preferably about 2 to 10 minutes.

(Example of the invention) Example 1 The colored aluminum transmission line of the present invention was manufactured using the manufacturing line illustrated in FIG.

First, in this production line, a sandblasting device 2 is interposed between a supply 1 on which an aluminum power transmission line to be subjected to surface treatment (Munsell display brightness 7.2) is wound and a coiler 5 which winds the processed aluminum power transmission line. , The induction heating device 3 and the hot water treatment tank 4 are arranged in this order, and the aluminum transmission line a is wound around the coiler 5 from the supply 1 through the sand blast device 2, the induction heating device 3 and the hot water treatment tank 4 in order. Is to be taken.

Some hot-water treatment tank _{4, Na 2 O · SiO 2 50ppm} , CaCO 3 200p
pm, 0.5% by weight of triethanolamine is dissolved, and hot water adjusted to pH 10 is filled in a boiling state (100 ° C.).

In this line, an aluminum transmission line a is pulled out of the supply 1, passed through a sand blasting device 2 to roughen the surface, and then passed through an induction heating device 3 to feed the power transmission line 90.
After heating to ° C., the mixture was treated in a hot water treatment tank 4 for 10 minutes and wound up by a coiler 5.

The surface tone of the obtained aluminum power transmission line was dark gray, and its Munsell display brightness was 3.5.

Next, the obtained aluminum power transmission line was exposed outdoors for one year, and during that time, the wetting and spreading properties of rainwater droplets and the change in color tone were examined. .

Example 2 The surface of an aluminum power transmission line was treated in the same manner as in Example 1 except that hot water contained 50 ppm of NaPO ₄ and 0.5% by weight of triethanolamine.

The color of the surface is gray black, and the Munsell display brightness is
4.0.

In the same manner as in Example 1, wetting and spreading properties of rain water drops and changes in color tone were examined. There was no change from the state immediately after coloring.

Example 3 An aluminum power transmission line was surface-treated in the same manner as in Example 1 except that hot water contained 100 ppm of H ₂ SO _{4 and} 0.5% by weight of triethanolamine.

The color tone of the obtained surface was gray black, and the Munsell display brightness was 4.5.

With respect to the obtained aluminum transmission line, in the same manner as in Example 1, wetting spread property of rain water droplets on the surface and change in color tone were examined. It was not different from immediately after coloring.

Example 4 Except that no sandblasting was performed,
The same processing as in Example 3 was performed.

The formed surface had undergone a color change, but it was spotted and the Munsell display brightness was 5.8-6.2.
It was large and uneven.

Example 5 The temperature of the hot water used in Example 1 was changed as shown in Table 1, and the hot water was used to change the aluminum power transmission line (Munsell display brightness
7.2) was treated, and the state of color development on the surface was examined. The results are shown in Table 1.

As is clear from Table 1, when the temperature of the hot water decreases, the Munsell display brightness increases.

Example 6 The pH of the hot water used in Example 3 was adjusted to the value shown in Table 2, and the aluminum transmission line was boiled in the same manner as in Example 3 to change the color development state of the aluminum transmission line. Examined.
The results are shown in Table 2.

As is evident from Table 2, when the pH value of the hot water is out of the range of 7 to 11, the Munsell display brightness of the obtained aluminum power transmission line increases.

Comparative Example 1 The surface of an aluminum power transmission line was treated in the same manner as in Example 1, except that 0.5% by weight of triethanolamine was contained in hot water. The surface tone of the obtained aluminum transmission line is light gray, and its Munsell display brightness is 6.
It was five.

(Effect of the Invention) As is clear from the above description, according to the method of the present invention,
The color of the surface of the aluminum transmission line and its accessories
Any color tone in the Munsell color chart achromatic array can be used, and when applied to aluminum transmission lines and their accessories, they can be brought to a surface condition that easily matches the overhead wire environment. In addition, since the formed color tone is maintained for a long period of time and has good hydrophilicity, in an aluminum transmission line, audible noise due to corona discharge generated due to attached water droplets is reduced.

In addition, since this method merely immerses the aluminum power transmission line and its accessories in hot water, it is extremely simple as a surface coloring method of the aluminum power transmission line and its accessories, and has high productivity and low cost. Below, it is useful to be able to manufacture aluminum transmission lines and their accessories that match the overhead wire environment.

[Brief description of the drawings]

FIG. 1 is an example of a production line used for producing a colored aluminum transmission line by the method of the present invention. DESCRIPTION OF SYMBOLS 1 ... Supply, 2 ... Sand blast apparatus, 3 ... Induction heating apparatus, 4 ... Hot water treatment tank, 5 ... Coiler.

────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Koji Akasaka 2-6-1 Marunouchi, Chiyoda-ku, Tokyo Furukawa Electric Co., Ltd. (56) References JP-A-56-84815 (JP, A) JP-A-3-104880 (JP, A) JP-A-51-106645 (JP, A) JP-A-53-57142 (JP, A) JP-A-55-161069 (JP, A) JP-A-55-21532 (JP, A) , A) (58) Fields investigated (Int. Cl. ⁶ , DB name) C23C 22/00-22/86 H01B 13/00

Claims (3)

(57) [Claims] 1. An aluminum transmission line and its accessories,
The surface of the aluminum power transmission line and its accessories is immersed in hot water containing at least one anion selected from the group consisting of carbonate ion, silicate ion, sulfate ion, phosphate ion and nitrate ion. A method for producing a colored aluminum power transmission line and its accessories, which is colored in a desired color tone in a Munsell color chart achromatic array. 2. The colored aluminum transmission line according to claim 1, wherein the source of the anion is at least one selected from the group consisting of carbonate, silicate, sulfate, phosphate, and nitrate. Manufacturing method. 3. The method for producing a colored aluminum power transmission line and its accessories according to claim 1, wherein the surface of the aluminum power transmission line and its accessories are subjected to a surface roughening treatment prior to immersion in the hot water.