JP3965152B2 - Paste-type anti-corrosion paint, anti-corrosion coating, and power tower - Google Patents

Description

  The present invention relates to a paste-like anticorrosion paint for preventing corrosion of metals nobler than zinc, an anticorrosion coating film formed from this paste-like anticorrosion paint, and a power tower pylon for which such an anticorrosion coating film is formed. . More specifically, the present invention relates to a paste-like anticorrosive paint that has a small change in viscosity over time and can be suitably used for a long time after opening, an anticorrosive and conductive coating film, The present invention relates to a metal tower for power transmission in which a coating film having conductivity and corrosion resistance is formed.

  Steel towers that stretch transmission lines and the like are made of iron, and such steel towers are maintained for a long time in a very severe atmospheric corrosion environment, so extremely high anticorrosion properties are required. Yes. When a very high anticorrosion property is required in this way, a coating method called heavy coating is employed. For such heavy coating, paint containing zinc powder whose natural potential based on saturated gypsum electrode is lower than iron is used, and this zinc powder acts as a sacrificial electrode for iron to prevent iron corrosion is doing.

  As a paint used for such heavy coating, for example, there is a paint disclosed in Patent Document 1 (Japanese Patent Publication No. 8-22981). This Patent Document 1 is composed of zinc particles having a particle size of 70 to 150 μm of 80% or more, a pressure-sensitive adhesive containing no acid, and a solvent. An invention of a coating filler containing Zn for anticorrosion, characterized in that it is mixed at a ratio of ˜95 wt% and adhesive solid content of 5 to 20 wt%, and imparts conductivity and elasticity to the dried film. Has been.

  By recoating such a coating filler containing Zn for anticorrosion, the zinc powder contained in the filler has a lower natural potential than the iron because the natural potential of the saturated ginger electrode standard is lower than that of iron. Oxidized to prevent oxidation of iron. Therefore, in a steel tower or the like in an atmospheric corrosive environment, the zinc powder is oxidized and consumed as described above, and therefore it is necessary to repaint the paint at regular intervals.

  By the way, when the transmission line is stretched on the steel tower, the power transmission property is stretched through the insulator. This insulator is insulative and electrically insulates the steel tower from the transmission line.

  Since such an insulator is insulative, it may be destroyed, for example, when it is directly hit by a lightning strike. For this purpose, rings called arc horns are arranged on both sides of the insulator, and the insulator is protected by discharging between the arc horns during a lightning strike. However, such discharge between arc horns may damage the coating.

  Such painting of a steel tower including an arc horn is a work at a high place, and once it is moved up on the steel tower, the work at a high place is generally continued until a predetermined work is completed.

  However, paints such as Zn-containing coating fillers for anticorrosion as described above are used to coat paints on parts used in steel towers (usually such parts are called "steel hardware"). In many cases, the organic solvent contained in the coating material gradually evaporates, increasing the viscosity of the coating material and making the coating operation impossible. In the case of ground work, it is possible to apply the solvent while adjusting the viscosity by adding a solvent, but in high places, it is very difficult to perform the work while adjusting the viscosity as in the ground work. It is.

  In addition, the anticorrosion paint used for anticorrosion such as steel tower hardware has a high content of metal powder such as zinc which becomes a sacrificial electrode, and in the paint containing a large amount of such metal powder, the metal powder settles. If an excessive amount of solvent is added to the anticorrosion paint with the expectation that the viscosity will increase during the operation, the metal powder will settle in the anticorrosion paint, and thus the precipitated and solidified metal powder will be redispersed. Is very difficult.

  Therefore, in anticorrosion paints used for anticorrosion of steel towers and steel tower structures, the zinc powder contained is unlikely to settle before use, and even if it settles, it is easily uniform in the paint by stirring. It is necessary to have an initial viscosity that can be dispersed in the composition, and it is necessary to adjust the composition so that the viscosity does not increase excessively even when the paint is used in an opened state.

However, an aromatic solvent such as toluene is used as a solvent in the coating material used for the corrosion prevention of the steel tower structure or the steel tower structure as described above. For example, the boiling point of toluene is 110 ° C. When used in an environment where the temperature is high and the solvent tends to evaporate, the amount of toluene evaporation, which is the solvent, is very large, and the viscosity of this paint rises rapidly during high-altitude work, making it impossible to brush. There is a problem that it ends up.
Japanese Patent Publication No. 8-22981

  The present invention has excellent anticorrosive properties by containing zinc powder as a sacrificial electrode at a high content rate, and also has good workability even in high temperatures such as in summer or in environments where the wind blows strongly on the steel tower etc. It aims at providing the anti-corrosion coating material which can form the uniform coating film formed while having.

  Furthermore, an object of the present invention is to provide an anticorrosion paint capable of maintaining a viscosity capable of forming a uniform coating film with little unevenness for a long time.

  Moreover, this invention aims at providing the coating film excellent in the corrosion resistance formed using such a coating material.

  Still another object of the present invention is to provide a steel tower for power transmission in which a coating film having a uniform and high corrosion resistance is formed on the surface as described above.

The paste-like anticorrosive paint of the present invention is
In 100 parts by weight of paste-type anticorrosive paint , particles containing a polyolefin resin having rubber elasticity inert to zinc in an amount in the range of 15 to 25 parts by weight and having a particle diameter in the range of 100 to 200 μm Containing zinc powder in an amount in the range of 75 to 100% by weight in an amount in the range of 45 to 70 parts by weight;
It is a paste-like anticorrosive paint containing an organic solvent in an amount in the range of 1 to 15 parts by weight ,
In the organic solvent , the initial viscosity of the paste-like anticorrosive paint at 25 ° C. falls within the range of 5000 cp to 12000 cp that can be easily applied by brush coating, and the basal-like anticorrosive paint is added at 25 ° C. The viscosity of the pasty anticorrosive paint after standing for 8 hours is in an amount of 110 to 150% of the initial viscosity that can be brushed over a long period of time , and the boiling point is 140 to 240 ° C. It is characterized that you are contained aliphatic hydrocarbon solvent within range.

Moreover, the anticorrosive coating film of the present invention is
In 100 parts by weight of paste-type anticorrosive paint , particles containing a polyolefin resin having rubber elasticity inert to zinc in an amount in the range of 15 to 25 parts by weight and having a particle diameter in the range of 100 to 200 μm Containing zinc powder in an amount in the range of 75 to 100% by weight in an amount in the range of 45 to 70 parts by weight;
The organic solvent is a paste-like anticorrosive paint containing an amount within the range of 1 to 15 parts by weight, in the organic solvent, the initial viscosity at 25 ° C. of the pasty anticorrosive paint, easily by brushing coating The viscosity of the paste-like anticorrosive paint after being left at 25 ° C. for 8 hours can be applied over a long period of time while being within the range of 5000 cp to 12000 cp that can be applied. Average thickness formed from a paste-like anticorrosive coating containing an aliphatic hydrocarbon solvent having a boiling point in the range of 140 to 240 ° C. in an amount in the range of 110 to 150% with respect to a certain initial viscosity. Saga Ri range near the 100Myuemu～3000myuemu, volume resistivity, a conductive anticorrosive coating film to be within the scope of 0.4~1.0Ω · cm.

Furthermore, the present invention provides
In 100 parts by weight of the paste-like anticorrosive paint , a polyolefin resin having rubber elasticity inert to zinc is included in an amount within the range of 15 to 25 parts by weight ,
Containing zinc powder containing particles having a particle diameter in the range of 100-200 μm in an amount in the range of 75-100 wt%, in an amount in the range of 15-25 parts by weight ,
A paste for anticorrosive paint containing an organic solvent in an amount in the range of 1 to 15 parts by weight is a metal for a conductive tower having a conductive film coated on the surface and cured ,
In the organic solvent, the initial viscosity at 25 ° C. of the pasty anticorrosive paint, it becomes in the range of 5000 cp ～12000Cp which can be easily applied by brushing the coating, the paste-like anticorrosive paint, 25 The boiling point of the paste-like anticorrosive paint after standing at 0 ° C. for 8 hours is in the range of 110 to 150% with respect to the initial viscosity which can be applied by brushing over a long period of time. ℃ aliphatic hydrocarbon solvent to be within the range obtained from the paste-like anticorrosive paint contained in, Ri thickness 100~3000μm der, volume resistivity in the range of 0.4~1.0Ω · cm An anti-corrosion coating film is formed on the surface, and a steel tower for power transmission is provided.

The paste-like anticorrosive paint of the present invention contains highly homogenous zinc powder, and the initial viscosity of this paste-like anticorrosive paint is in the range of 5000 cp to 12000 cp. The powder is difficult to separate and settle, and the paste-like anticorrosive paint of the present invention has a small difference between the initial viscosity and the viscosity after a predetermined time, and can form a uniform coating film for a long time without adjusting the viscosity. . Therefore, even when working at high places using the paste-like anticorrosive paint of the present invention, the viscosity change of the paste-like anticorrosive paint is small, and the paste-like anticorrosive paint can be applied stably over a long period of time. . In addition, the paste-like anticorrosive paint of the present invention has very good storage stability because the zinc powder is less likely to settle and solidify at the bottom of the container.

  Furthermore, the coating film formed using the paste-like anticorrosive paint of the present invention exhibits good conductivity due to the contained zinc powder, and the zinc powder uniformly contained in this coating film is based on the saturated cane electrode standard. It becomes a sacrificial electrode with respect to iron whose natural potential is more noble than zinc and can prevent oxidation of iron.

  Therefore, the steel tower metal on which the coating film formed from the paste-like anticorrosive paint of the present invention is formed has extremely excellent anticorrosion properties, and the formed coating film is conductive. Arc discharge is possible between steel towers having this coating film, and damage to the insulator can be prevented by, for example, arc discharge between arc horns placed with the insulator sandwiched during a lightning strike.

  In particular, the steel tower hardware having the above-described coating film has a conductive coating film formed on the surface, and the zinc powder uniformly contained in the coating film acts as a sacrificial anode for iron. Since it is oxidized prior to iron, it has very good anticorrosive properties. In addition, the resin contained in the paste-like anticorrosive paint of the present invention has rubber elasticity and can follow the heat shrinkage of the power transmission tower, so that cracks and the like are not easily generated. The coating film formed from the pasty anticorrosive paint and the metal tower for power transmission having such a coating film on the surface show excellent weather resistance. Furthermore, the coating film formed in this way can be overcoated with the paste-like anticorrosive paint of the present invention. By overcoating, the weather resistance is improved, and an anticorrosive coating film such as a steel tower is provided. When repairing, the paste-like anticorrosive coating film of the present invention can be applied to the surface of the existing coating film without peeling off the coating film already applied.

That is, the evaluation of the brushing workability for the power transmission tower hardware is evaluated based on the provisions of JIS K5400, but in the present invention, it is further evaluated in consideration of the smoothness and uniformity of the coating film. And the paste-form anticorrosion paint of this invention satisfy | fills the workability prescribed | regulated to JISK5400, and the formed coating film is smooth and uniform. Further, when the conventional paint is used, the coating film formed becomes uneven when the coating operation takes a long time, and there are many bunches, etc., but the paste-like anticorrosive paint of the present invention is used. As a result, such unevenness or fouling hardly occurs over time.

  The main organic solvent preferably used in the present invention is an aliphatic hydrocarbon solvent, and pollutes the working environment as compared with toluene, xylene and the like conventionally used as main solvents for paints for heavy coating. The coating operation can be performed safely.

  Next, the paste-like anticorrosive paint, anticorrosive coating film and power transmission tower hardware of the present invention will be specifically described.

  The paste-like anticorrosive paint of the present invention contains a resin, zinc powder and an organic solvent.

  The resin blended in the paste-like anticorrosive paint of the present invention is a resin that does not have reactivity with zinc blended in the paint, and it is preferable that the resin has rubber elasticity. .

  That is, the resin contained in the paste-like anticorrosive paint of the present invention is a matrix for adhering the coating film formed from this paint to the coated surface and dispersing the zinc powder. It is also a covering material that protects the surface of anti-corrosion power transmission towers. For this reason, if the coating film made of this resin is hard, cracks may occur in the coating film due to, for example, a difference in thermal expansion coefficient from that of metal, and adhesion to the metal surface may decrease. For this reason, the resin used in the present invention is preferably a resin having rubber elasticity so that the resin has good adhesion to the metal surface and has followability even by thermal expansion.

Examples of such resins include olefin-based elastic resins having rubber elasticity formed from monomers having an α-olefin structure such as propylene rubber and butadiene rubber; and styrene and α-olefins such as SEBS and SEPS. Examples thereof include styrene elastic resins; acrylic elastic resins; natural rubbers; modified silicone elastic resins. These elastic resins can be used alone or in combination. Particularly in the present invention, it is preferable to use an olefin-based elastic resin formed from a conjugated diene such as butadiene. By using such an elastic resin, the affinity with a specific aliphatic hydrocarbon used as a solvent is good, and by using an aliphatic hydrocarbon solvent, the paste-like anticorrosive paint of the present invention can be used. It has the effect of making it difficult for the viscosity to rise rapidly.

  The zinc powder contained in the paste-like anticorrosive paint of the present invention is preferably one having a uniform particle diameter, and in the present invention, the content of the powder having a particle diameter in the range of 100 to 200 μm is Zinc powder in the range of 75 to 100% by weight of the total zinc powder is used.

  The zinc powder used in the present invention has a very uniform particle as described above. Further, it is preferable that the amount of impurities in the zinc powder is as small as possible. It is particularly preferable that is not containing a metal equivalent to or nobler than iron.

As the zinc powder used in the present invention, pure zinc powder, preferably pulverized with an atomizer or the like, is purified using a classifier such as an air classifier or a standard sieve so that the particle diameter is within the above range. Use zinc powder. By using pure zinc powder with a uniform particle diameter in this way, the uniformity of the coating film obtained from the paste-like anticorrosive paint of the present invention is increased, and this coating film has good anticorrosion properties, Furthermore, this coating film has good electrical conductivity. The paste-like anticorrosive paint of the present invention comprises a resin as described above, an organic solvent that dissolves or disperses this resin, and an organic solvent solution of such a resin. Alternatively, zinc powder is dispersed in an organic solvent dispersion.

  The organic solvent used here contains an aliphatic hydrocarbon solvent. The aliphatic hydrocarbon solvent is a mixture of aliphatic hydrocarbons having a boiling point in the range of 140 to 240 ° C, preferably in the range of 140 to 220 ° C. By using an aliphatic hydrocarbon solvent having a boiling point of 140 ° C. or higher, a resin solution having an initial viscosity suitable for coating can be formed. When the boiling point of the aliphatic hydrocarbon solvent exceeds 240 ° C., the organic solvent is volatilized and removed from the coating layer formed by applying the paste-like anticorrosive paint of the present invention, and the coating film has excellent anticorrosive properties. The time required to form can be too long. The aliphatic hydrocarbon solvent having a boiling point within the range of 140 to 240 ° C. has a good affinity with a resin that is inert to zinc contained in the paste-like anticorrosive paint of the present invention. It can be dissolved at a high concentration to form a highly viscous solution that can be brushed. In particular, the paste-like anticorrosive paint of the present invention contains zinc powder as described above at a high concentration, and has such a viscosity that such zinc powder settles on the bottom of the can during storage and is hard to solidify. .

That is, the initial viscosity of the paste-like anticorrosive coating of the present invention, the zinc powder contained in the the paint is adjusted to within the range of Oite 5000～12000C p to the 25 ° C. As hardly settle Is preferred. By adjusting the initial viscosity in this manner, the zinc powder is less likely to settle, and the paste-like anticorrosive paint can be easily applied by brush coating. Furthermore, the uniformity of the coating film formed in this way is increased.

  The aliphatic hydrocarbon solvent having a boiling point in the range of 140 ° C. to 240 ° C. used in the present invention is an aliphatic hydrocarbon mainly having a carbon number in the range of 8 to 11, and this As such an aliphatic hydrocarbon solvent, specifically, a petroleum fraction having an initial boiling point of 140 ° C. or higher and an end point of 240 ° C. or lower can be used. Such an aliphatic hydrocarbon solvent is a good solvent for butyl rubber, and by using such an aliphatic hydrocarbon solvent in combination with butyl rubber, the pasty anticorrosive paint over time is used. It becomes easy to suppress an increase in viscosity.

  The pasty anticorrosive paint of the present invention desirably has a small increase in viscosity of the pasty anticorrosive paint after being left at 25 ° C. for 8 hours, and has a viscosity within the range of 110 to 150% of the initial viscosity ( In the present invention, the viscosity of the pasty anticorrosive paint after being left at 25 ° C. for 8 hours is sometimes adjusted to be “viscosity with time”. Furthermore, it is preferable to adjust so that the viscosity with time relative to the initial viscosity is in the range of 110 to 145%. Thus, by adjusting the viscosity with time relative to the initial viscosity, brush coating can be performed for a long time without adjusting the viscosity. And the coating film formed in this way has high uniformity, good corrosion resistance, and the formed coating film has stable conductivity.

  The initial viscosity and the time-dependent viscosity of the pasty anticorrosive paint of the present invention are values measured as follows.

  For the initial viscosity, a pasty anticorrosive paint prepared by blending each component is stored at 25 ° C. in a sealed state. The viscosity of the pasty anticorrosive paint stored at 25 ° C. is measured, and this viscosity is taken as the initial viscosity. In the present invention, the time-dependent viscosity is a value obtained by measuring the viscosity of the paste-like anticorrosive paint after opening the paste-like anticorrosive paint of the present invention in a container and leaving it at 25 ° C. for 8 hours. In the present invention, the viscosity of the paste-like anticorrosive paint is a value measured using a rotational viscometer defined by JIS K5400.

  The viscosity increase rate is calculated according to the following equation measured as described above.

Viscosity increase rate (%) = (viscosity with time / initial viscosity) × 100
And it is preferable that the viscosity increase rate computed by the said formula exists in the range of 110-150%, and also this viscosity increase rate is in the range of 110-145%. A paste-like anticorrosive paint in such a range of viscosity increase rate can form a highly uniform anticorrosive coating film by brush coating without adjusting the viscosity during the operation.

  Thus, the viscosity of the paste-like anticorrosive paint of the present invention can be adjusted by the contents and types of the resin, zinc powder and organic solvent.

The resin used in the present invention is a resin having rubber elasticity as described above, and the content of the resin in the paste-like anticorrosive paint of the present invention (100 parts by weight) immediately after preparation is calculated in terms of resin solid content. Usually, it is 10 to 30 parts by weight, preferably 15 to 25 parts by weight. Moreover, content of the zinc powder in the paste-form anticorrosion coating material (100 weight part) of this invention immediately after preparation is made into the range of 40-85 weight part, Preferably it is 45-70 weight part. Furthermore, the content of the organic solvent in the pasty anticorrosive paint (100 parts by weight) of the present invention immediately after preparation is set within the range of 1 to 15 parts by weight . By adjusting the amounts of the resin, zinc powder and organic solvent as described above so that the initial viscosity of the paste-like anticorrosive paint of the present invention is within the range of 5000 cp to 12000 cp , the zinc powder is less likely to settle. .

  In the present invention, in order to make the rate of increase in viscosity of the paste-like anticorrosive paint of the present invention having the above initial viscosity within the range of 110 to 150%, preferably 110 to 145% with respect to the initial viscosity, The viscosity is adjusted by adding an aliphatic hydrocarbon solvent having a boiling point in the range of 140 to 240 ° C. in the organic solvent contained in the anticorrosive paint.

In the pasty anticorrosive paint of the present invention, there is an organic solvent contained in the resin raw material to be used, in addition to the aliphatic hydrocarbon solvent added for adjusting the viscosity. That is, the resin used in the present invention is supplied after being dissolved in an organic solvent. Such a raw material resin solution contains a resin component in an amount of 50 to 60% by weight, and an aromatic solvent such as toluene (bp. 110 ° C.) or xylene (bp. 138 ° C.) as an organic solvent. 10-15% by weight of solvent, low boiling point aliphatic hydrocarbon solvent (eg, bp. 35-100 ° C. such as pentane, methyl pentane, n-hexane, heptane, etc.)
About 20 to 45% by weight of an aliphatic hydrocarbon solvent). When such a resin raw material is used, the paste-like anticorrosive paint of the present invention contains an organic solvent derived from such a resin raw material. The amount of the resin in 100 parts by weight of the paste-like anticorrosive paint of the present invention is the solid content. Since it is usually in the range of 10 to 30 parts by weight, the amount of the organic solvent derived from the resin raw material in the paste-like anticorrosive paint of the present invention is usually 4 to 15% by weight. Even when the above organic solvent derived from a resin material is contained, the viscosity over time of the present invention does not vary significantly.

In preparing the paste-like anticorrosive paint of the present invention, the resin raw material dissolved in an organic solvent is usually 10 to 50 parts by weight, preferably 20 to 40 parts by weight, and the above zinc powder is usually 40 to 87. 5 parts by weight, preferably 51.5-76.5 parts by weight, and an aliphatic hydrocarbon solvent having a boiling point within the range of 140-240 ° C., usually 2.5-10 parts by weight, preferably 3
. By blending in an amount within the range of 5 to 8.5 parts by weight, the initial viscosity at 25 ° C. can be adjusted within the range of 5000 cp to 9000 cp . And by using an aliphatic hydrocarbon solvent having a boiling point in the range of 140 to 240 ° C. in such an amount, the increase in viscosity with time is preferably in the range of 110% to 150% with respect to the initial viscosity, preferably Can be controlled within a range of 110% to 145%.

  Furthermore, in the paste-like anticorrosive paint of the present invention, the content ratio between the resin solid content and the zinc powder is usually 10:15 to 10:25, preferably 10:16 to 10:24, by weight. Set within the range. By setting the amount of resin solids and zinc powder used in such amounts, the zinc powder is less likely to settle during storage, the anticorrosion performance of the resulting coating is improved, and the resulting coating is good. Have good electrical conductivity.

  Further, in 100 parts by weight of the paste-like anticorrosive paint of the present invention, the blending ratio of the resin and the aliphatic hydrocarbon solvent having a boiling point in the range of 140 to 240 ° C. is a weight ratio, usually 1: 0. .18 to 1: 0.72, preferably within a range of 1: 0.25 to 1: 0.62.

  The paste-like anticorrosive paint of the present invention usually contains a solvent derived from the raw material resin and an aliphatic hydrocarbon solvent having a boiling point of 140 to 240 ° C. The paste of the present invention The amount of the aliphatic hydrocarbon solvent having a boiling point of 140 to 240 ° C. in 100 parts by weight of the organic solvent contained in the anticorrosive coating is usually in the range of 2.5 to 10 parts by weight, preferably 3 The amount is within the range of 5 to 8.5 parts by weight.

  By changing the amount of the aliphatic hydrocarbon solvent having a boiling point of 140 to 240 ° C. in the organic solvent of the paste-like anticorrosive paint of the present invention within the above range, the viscosity change of the paste-like anticorrosive paint of the present invention can be changed. It becomes difficult to be influenced by the solvent contained in the resin raw material, and the viscosity control of the pasty anticorrosive paint of the present invention becomes easy.

  The pasty anticorrosive paint of the present invention can be produced by uniformly mixing the raw material resin component, the zinc powder, and the solvent using an ordinary mixing device. Moreover, it can manufacture also by kneading | mixing raw material resin, zinc powder, and a solvent using a kneading roll apparatus etc. The blending order of these components can be appropriately set. For example, a method of dispersing zinc powder in a solvent and mixing the dispersion and the raw material resin, kneading the raw material resin and the zinc powder, and zinc A method of uniformly dispersing the powder in the raw material resin and then uniformly adding a solvent can be employed. Moreover, zinc powder can be favorably disperse | distributed by dividing | segmenting and adding zinc powder gradually.

  The paste-like anticorrosive paint of the present invention contains a resin, zinc and a solvent as described above, but other components can also be blended. For example, in order to improve the weather resistance of the resulting anticorrosion coating, a resin stabilizer such as an ultraviolet absorber can be blended. Furthermore, fillers other than zinc powder can also be mix | blended with this paste-form anticorrosion coating material. Examples of such fillers other than zinc powder include calcium carbonate and fine powdered silica. By blending these fillers, the fluidity of the paste-like anticorrosive paint of the present invention can be adjusted, and the contained zinc powder can be made difficult to settle. In addition, the filler which can be mix | blended in this invention does not inhibit the corrosion resistance by zinc powder.

The paste-like anticorrosive paint of the present invention as described above has an initial viscosity at 25 ° C. in the range of 5000 cp5000 to 9000 cp , and can be thickly coated on steel tower hardware using a normal paint brush. The anticorrosive coating film obtained by applying the paste-like anticorrosive paint of the present invention can appropriately set the film thickness depending on the degree of anticorrosion required by the anticorrosive object, but the paste-like anticorrosive paint of the present invention is since initial viscosity is relatively high, there is a tendency that film thickness than ordinary paint is increased, usually, the thickness of the paste-like anticorrosive paint coating film formed by one coating using the present invention Usually, it exists in the range of 100-2000 micrometers, Furthermore, the anticorrosion coating film whose film thickness is 100-3000 micrometers can be formed by recoating. Such an anticorrosion coating film is electrically conductive by zinc powder contained in a large amount and exhibits conductivity. Therefore, for example, when this anticorrosion coating film is formed on the surface of a base material such as iron, the base material and the anticorrosion coating film are electrically connected. Even if there is an incomplete part of the coating, the zinc powder contained in the anti-corrosion coating becomes a sacrificial electrode and is oxidized first, so that it can prevent the oxidative corrosion of the base iron it can.

  Thus, in order for the anticorrosion coating film obtained from the pasty anticorrosion coating material of the present invention to exhibit good anticorrosion properties as described above, the volume resistivity of the anticorrosion coating film is usually 0.4 to 1. Within the range of 0Ω · cm.

  Thus, in order to keep the electrical conductivity of the coating film within a certain range, the paste-like anticorrosion paint is uniformly distributed so that zinc powder in the anticorrosion paint film formed from the paste-like anticorrosion paint of the present invention is not unevenly distributed. Furthermore, it is necessary that the change in viscosity of the coating liquid (coating material) during coating work is small. The paste-like anticorrosive paint of the present invention has a small change in viscosity over time, and forms a highly uniform anticorrosive coating film even when it is difficult to adjust the viscosity during work, for example, at high places. be able to.

  The paste-like anticorrosive paint of the present invention has excellent anticorrosive properties, and can be used in the same manner as ordinary anticorrosive paints for anticorrosion of metals whose natural potential based on the saturated gypsum electrode is precious than zinc. However, the anticorrosion coating obtained from the paste-like anticorrosion coating of the present invention has conductivity, and is suitable as an anticorrosion coating for members that have high anticorrosion properties and require that the anticorrosion coating be conductive. Can be used for

  In the paste-like anticorrosive paint of the present invention, the zinc powder contained in the paste-like anticorrosive paint establishes good conductivity even at the joint portion of each steel tower hardware, so that the steel tower itself can be grounded.

  Furthermore, the transmission line is stretched on the steel tower, but this transmission line and the steel tower are insulated from each other. When the power transmission line is stretched on the steel tower, an insulator showing good insulation is used. The

  Normally, this insulator shows good insulation and keeps the tower and the transmission line in an electrically insulated state. However, in the case of lightning strike, a very large current flows. May be damaged by lightning shock or heat, and the electrical insulation between the tower and the transmission line may be destroyed. In order to prevent such damage of the insulator due to lightning, insulator protection members called arc horns are arranged on both sides of the insulator. This arc horn prevents damage to the insulator by discharging between the arc horns during a lightning strike, and the arc horn as a whole needs to be conductive as well as the surface of the arc horn. In particular, since it is discharged during lightning strikes to protect the insulator, it is necessary to have better conductivity than other steel tower hardware.

  An example of such an arc horn is shown in FIGS. FIG. 1 is a perspective view showing an example in which an arc horn is arranged on a steel tower. As shown in FIG. 1, arc horns 10 and 10 are arranged on both sides of the insulator 12 when the transmission line is stretched through the insulator 12 of the steel tower.

  As shown in FIG. 2, these arc horns 10 basically include a metal ring 14, a mounting bracket 16 for mounting the metal ring 14, and a horn portion 15 for discharging. When a lightning strike occurs, the current caused by the lightning strike can be discharged from the tip of the horn 15 of the arc horns 10 and 10 and grounded without damaging the insulator 12.

  For this reason, the arc horn 10 has conductivity. The arc horn 10 is made of iron, and as shown in FIG. 3, an anticorrosion coating film 17 is formed by applying the paste-like anticorrosion paint of the present invention to the surface of the iron core material 18 forming the arc horn 10. ing.

  The anticorrosion coating film 17 formed on the arc horn 10 can be formed by applying the paste-like anticorrosion paint of the present invention by brushing or the like and evaporating the solvent. The film thickness of the anticorrosion coating film 17 is usually in the range of 100 to 3000 μm, preferably 300 to 2000 μm. Furthermore, the volume resistivity of the anticorrosion coating film 17 formed on the arc horn 10 is usually in the range of 0.4 to 1.0 Ω · cm.

  When the anticorrosion coating film 17 having such electric conductivity is discharged, the anticorrosion coating film 17 in the discharged portion may be damaged. The damaged arc horn is formed by a worker climbing on the steel tower. It is necessary to repair the anticorrosion coating film 17 at a place work, but by using the paste-like anticorrosion paint of the present invention, the surface of a steel tower hardware such as an arc horn can be used without adjusting the viscosity at a high place work. The anticorrosive coating film formed on can be repaired. Moreover, since the pasty anticorrosive paint of the present invention has a high initial viscosity, it is possible to form a thick anticorrosive coating film by a single application. Furthermore, the anticorrosion coating film thus formed is electrically conductive and does not hinder arc discharge during lightning strikes. In addition, since the pasty anticorrosive paint of the present invention has a small change in viscosity over time, it is difficult to adjust the viscosity of the pasty anticorrosive paint. The anticorrosion coating treatment can be performed over a long period of time.

  Furthermore, the coating film of the present invention is formed by applying the paste-type anticorrosive paint as described above on the metal surface as a base material at least once, and the average thickness is usually 100 to 3000 μm. Preferably, it exists in the range of 300-2000 micrometers. And the volume resistivity of this coating film exists in the range of 0.4-1.0 ohm * cm normally. Such a coating film has good anticorrosion properties.

  Moreover, the steel tower for power transmission according to the present invention has the above-described average thickness on the surface of the metal parts forming the tower, and a conductive coating film is formed, and has excellent corrosion resistance. . In particular, the power transmission tower hardware of the present invention is preferably an arc horn. The arc horn thus formed with a coating film has excellent anticorrosion properties, but the formed coating film has good conductivity, and the lightning current is generated between the arc horn parts. Since it is discharged and grounded through another steel tower member, damage to the insulator can be prevented.

  Next, although the Example of this invention is shown and the paste-form anticorrosion coating material of this invention, an anticorrosion coating film, and a steel tower hardware are demonstrated, this invention is not limited by these.

  A rubber-based resin containing a solvent (manufactured by Konishi Co., Ltd., trade name: G6520) is 32.3% by weight, and zinc powder containing 80% by weight or more of zinc powder whose particle size is adjusted by sieving to 100 to 200 μm is 64.7%. %, An aliphatic hydrocarbon solvent having a boiling point in the range of 154 ° C. to 195 ° C. and 3.0% by weight were mixed with a stirrer having rotating blades to prepare a paste-like anticorrosive paint of the present invention. The aliphatic hydrocarbon solvent having a boiling point in the range of 154 ° C. to 195 ° C. is a mixture of aliphatic hydrocarbon solvents having 8 to 11 carbon atoms, and the aliphatic hydrocarbon solvent is mainly linear. It is made of a similar aliphatic hydrocarbon.

The rubber-based resin used as a raw material contains 60% by weight of butyl rubber, 12% by weight of toluene, and 28% by weight of a low-boiling aliphatic hydrocarbon solvent (bp. 60 to 70 ° C.). Yes.

Accordingly, the content of the organic solvent derived from the rubber-based resin in the obtained paste-like anticorrosive paint is 3.8776% by weight of toluene (bp. 110 ° C.), a low-boiling point aliphatic hydrocarbon solvent (bp. 60 to 70).
° C) 9.044% by weight, and the resin solid content (solid content) in this pasty anticorrosive paint is 19.38% by weight. The paste-like anticorrosive paint contains 14.305% by weight of an organic solvent, and the aliphatic hydrocarbon solvent having a boiling point in the range of 154 ° C. to 195 ° C. contains 100% by weight of the organic solvent. In an amount of 20.97 parts by weight.

  The initial viscosity at 25 ° C. of the pasty anticorrosive paint prepared as described above was 5000 cp. An anticorrosive coating could be formed on the arc horn by brushing the paste-like anticorrosive paint onto the arc horn.

  The past viscosity measured after leaving the pasty paint at 25 ° C. for 8 hours is 8500 cp, and the past viscosity of the pasty anticorrosive paint is only 141.7% higher than the initial viscosity.

  In the present invention, the viscosity of the pasty anticorrosive paint was measured using a rotational viscometer defined by JIS K5400.

  When the paste-like anticorrosive paint after being allowed to stand for 8 hours was applied to the arc horn by brushing, the paste-like anticorrosive paint could be uniformly applied by brushing. The paste-like anticorrosive paint could be brushed well without adjusting the viscosity during this coating operation.

  Further, after standing for 8 hours as described above, this pasty anticorrosive paint was applied to form a coating film, but a highly uniform coating film could be formed.

  Furthermore, when the electrical resistance value of a non-uniform coating film formed using such a paste-like anticorrosive coating was measured, the volume resistivity of this coating film was 0.5 Ω · cm, which was a constant value. Indicated. Therefore, this coating film has good conductivity to be a sacrificial electrode for steel tower hardware, and an arc horn having a coating film showing such a good electric resistance value on the surface protects the insulator. It had sufficient conductivity to do.

  The paste-like anticorrosive paint prepared as described above was applied to a blasted steel tower using a brush for varnishing to confirm the workability. The workability was confirmed according to JIS K5400.

Further, in order to investigate the anticorrosive property of the pasty anticorrosive paint of the present invention, the pasty anticorrosive paint obtained as described above was opened for 8 hours at 25 ° C. in an opened state, and then the pasty anticorrosive paint was changed to width 7 The above brush was applied to the entire surface of a blasted steel plate having a length of 1.5 cm and a length of 15 cm. This was subjected to a salt spray test for 500 hours, and corrosion resistance was good when no rust of iron was observed other than the white rust of zinc after 500 hours.

Table 1 shows the initial viscosity, viscosity over time, workability, corrosion resistance, and electrical resistance measured as described above.
(Comparative Example 1)
In Example 1, an aliphatic hydrocarbon solvent having a boiling point in the range of 154 ° C. to 195 ° C. was used in an amount of 3.0% by weight of toluene (bp. 110 ° C.) instead of 3.0% by weight. A paste-like anticorrosive paint was prepared in the same manner except that.

  Further, a coating film was formed from this paste-like anticorrosive coating material, and a steel tower metal having a coating film was produced.

  Table 1 shows the initial viscosity, time-dependent viscosity, workability, corrosion resistance, and electrical resistance value of the obtained product as measured in the same manner as in Example 1.

In Comparative Example 1 using this toluene, the initial viscosity is 6000 cp, but the viscosity with time tends to increase to 12000 cp (viscosity increase rate: 200%), the workability also deteriorates, and some coating unevenness is seen. It was.
(Comparative Example 2)
In Example 1, an aliphatic hydrocarbon solvent having a boiling point in the range of 154 ° C. to 195 ° C. was used in an amount of 3.0% by weight of xylene (bp. 138 ° C.) instead of 3.0% by weight. A paste-like anticorrosive paint was prepared in the same manner except that.

  Further, a coating film was formed from this paste-like anticorrosive coating material, and a steel tower metal having a coating film was produced.

  Table 1 shows the initial viscosity, time-dependent viscosity, workability, corrosion resistance, and electrical resistance value of the obtained product as measured in the same manner as in Example 1.

In Comparative Example 2 using xylene, the initial viscosity was 6000 cp, but it was recognized that the viscosity with time increased to 10,000 cp (viscosity increase rate: 167%), and the workability was slightly deteriorated. However, the coating unevenness was not so large.
(Comparative Example 3)
Rubber-based resin containing solvent (trade name: G6520, manufactured by Konishi Co., Ltd.), pure zinc atomized powder adjusted in particle size by sieving to 100 to 200 μm, and toluene, rubber-based resin (including solvent) ) 6% by weight, 84% by weight of zinc powder and 10% by weight of solvent (xylene) were added and mixed with a stirrer having rotating blades to prepare a paste-like anticorrosive paint. The rubber-based resin contains 60% by weight of butyl rubber, 12% by weight of toluene, and 28% by weight of a low-boiling point aliphatic hydrocarbon solvent (bp. 60 to 70 ° C.).

Accordingly, the content of the organic solvent in the obtained paste-like anticorrosive paint is 10.72% by weight of toluene and 1.68% by weight of a low boiling point aliphatic hydrocarbon solvent (bp. 60 to 70 ° C.). The resin solid content (solid content) in the anticorrosive coating is 4.2% by weight.

  The initial viscosity at 25 ° C. of the pasty anticorrosive paint prepared as described above was 6000 cp. An anticorrosive coating could be formed on the arc horn by brushing the paste-like anticorrosive paint onto the arc horn.

  The past viscosity was measured after leaving the pasty paint at 25 ° C. for 8 hours, and it was 15000 cp. The past viscosity of the pasty anticorrosive paint increased by 250.0% with respect to the initial viscosity.

  In this way, the paste-like anticorrosive paint after standing for 8 hours was applied to the arc horn by brushing. However, the viscosity became too high, and it was extremely difficult to apply the paste-like anticorrosive paint uniformly. Met.

  Further, after leaving for 8 hours as described above, an attempt was made to apply the paste-like anticorrosive paint to form a coating film, but a highly uniform coating film could not be formed.

  Furthermore, the electrical resistance value of a non-uniform coating film formed using such a paste-like anticorrosive coating was measured, and the volume resistivity of this coating film was about 0.4 Ω · cm on average, This volume resistance value had a large fluctuation range and did not show a constant value. Therefore, this coating film does not have conductivity to be a sacrificial anode of a steel tower hardware, and an arc horn with a coating film showing such an unstable electric resistance value formed on the surface is disposed. Even so, it is not always possible to protect the insulator by arc discharge.

The paste-like anticorrosive paint after 8 hours as described above was applied to the entire surface of the blasted steel plate having a width of 7.5 cm and a length of 15 cm using the brush. When this was subjected to a salt spray test for 500 hours, red rust occurred in part due to uneven coating caused by an increase in viscosity.

  I) In Table 1 above, the initial workability and the workability over time were evaluated based on JIS K5400, including the state of the formed coating film. That is, if the coating film was smooth and uniform, it was judged as “good”, and the coating film with large irregularities and dotted with lumps etc. was judged as “bad”.

  Using the paste-like anticorrosive paint produced in Example 1, the workability and viscosity increase property were confirmed assuming a working environment on the steel tower.

  In the above environment, a can with a paste-like anticorrosive paint was left for a certain period of time in a place where a large fan was used to generate wind and the wind was sufficiently exposed.

  After maintaining in the above environment for 5 hours, the steel sheet blasted in front of a large fan was applied using a brush.

  As a result, it was confirmed that the workability was good. Further, the viscosity increasing property was about 3000 cps even after 5 hours, and the workability was good.

  On the other hand, when the paint prepared in Comparative Example 2 using xylene was similarly examined for workability and viscosity increase as in Comparative Example 1 prepared by adding toluene, the paint prepared in Comparative Example 1 was From the initial viscosity, a viscosity increase of 8000 cp or more was observed, and the workability was poor. In Comparative Example 2 using xylene, an increase in viscosity of 5000 cp or more was observed, and workability was poor.

  The paste-like anticorrosive paint of the present invention has both a coating anticorrosive action and a sacrificial anticorrosive action, and has good workability even in an environment where the solvent easily evaporates, and has very excellent anticorrosive properties such as a steel tower hardware. At the same time, it can be used in applications where the anticorrosion coating film requires electrical conductivity.

FIG. 1 is an explanatory view showing an example of installing an arc horn on a steel tower. FIG. 2 is a perspective view showing an example of an arc horn. 3 is a cross-sectional view showing a cross section of the arc horn.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Arc horn 12 ... Insulator 14 ... Metal ring 16 ... Mounting bracket 15 ... Horn part 17 ... Anticorrosion coating 18 ... Iron core material

Claims (2)

In 100 parts by weight of paste-type anticorrosive paint, particles containing a polyolefin resin having rubber elasticity inert to zinc in an amount in the range of 15 to 25 parts by weight and having a particle diameter in the range of 100 to 200 μm Containing zinc powder in an amount in the range of 75 to 100% by weight in an amount in the range of 45 to 70 parts by weight;
It is a paste-like anticorrosive paint containing an organic solvent in an amount in the range of 1 to 15 parts by weight,
In the organic solvent, the initial viscosity at 25 ° C. pasty anticorrosive paint, it becomes in the range of 5000cp~12000cp which can be easily applied by brushing coating, 25 ° C. The pasty Protective Coatings The viscosity of the pasty anticorrosive paint after standing for 8 hours is in the range of 110 to 150% with respect to the initial viscosity that can be brushed over a long period of time, and the boiling point is 140 to 240. A paste-like anticorrosive paint characterized by containing an aliphatic hydrocarbon solvent in the range of ° C. In 100 parts by weight of paste-type anticorrosive paint, particles containing a polyolefin resin having rubber elasticity inert to zinc in an amount in the range of 15 to 25 parts by weight and having a particle diameter in the range of 100 to 200 μm Containing zinc powder in an amount in the range of 75 to 100% by weight in an amount in the range of 45 to 70 parts by weight;
It is a paste-like anticorrosive paint containing an organic solvent in an amount in the range of 1 to 15 parts by weight. In the organic solvent, the initial viscosity at 25 ° C. of the paste-like anticorrosive paint can be easily applied by brush coating. The viscosity of the paste-like anticorrosive paint after being left at 25 ° C. for 8 hours can be applied over a long period of time while being within the range of 5000 cp to 12000 cp that can be applied. Average thickness formed from a paste-like anticorrosive paint containing an aliphatic hydrocarbon solvent having a boiling point in the range of 140 to 240 ° C. in an amount in the range of 110 to 150% with respect to a certain initial viscosity. Is a conductive anticorrosive coating film having a volume resistivity in the range of 0.4 to 1.0 Ω · cm.

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