JPH0912938A - Coating material and water heater manufactured by using the material - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a coating material produced by adding hollow porous microcapsules to a coating material and effective for suppressing the noise of a water heater e.g. by converting the vibration energy of noise generated on the surface of the coating layer into thermal energy. SOLUTION: This coating material is produced by adding hollow porous microcapsules to a coating material. The microcapsule is preferably composed of a porous filler containing at least one of alkaline earth metal salt such as calcium carbonate or metal oxide such as silica and alumina from the viewpoint of high heat resistance. The coating material to be used as the base material is preferably a fluororesin-containing coating material containing tetrafluoroethylene resin as the fluororesin to exhibit stain-proofness and effectively reduce the boiling noise. The fluororesin content in the coating material is preferably <=80wt.% to give a coating material having high adhesiveness to the substrate. The amount of the microcapsule to be added to the coating material is preferably 3-50wt.% based on the solid content of the fluororesin to effectively suppress the boiling noise while keeping the properties of the original coating material.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a coating material capable of reducing noise generated during operation of equipment and a water heater using this coating material.

[0002]

2. Description of the Related Art In a water heater, a coating material is applied to or pasted on the surface of a metal substrate that constitutes a heating container in order to reduce the noise caused by the rupture of bubbles of water vapor generated at the time of temperature rise and boiling. It is something that is.

[0003]

However, as a conventional coating material, a coating material having a large film thickness is used for noise reduction, a material having a low glass transition temperature, or a rubber material aiming at a vibration damping effect. I am using. When the film thickness of the coating film becomes thick, the designability is deteriorated and the heat transfer property is deteriorated. If one having a low glass transition temperature is used, it cannot be used at a high temperature. Also, rubber is difficult to use inside the heating container for hygienic reasons.

The present invention is intended to solve the problems of the above-described conventional structure, and it is a first object of the present invention to provide a coating material which can effectively reduce noise.
Further, in relation to the first object, the second object is to provide a coating material using microcapsules that are porous and have high heat resistance.

A third object is to provide a coating material having heat resistance and antifouling property. Also,
A fourth object is to provide a coating material having improved adhesiveness with a base material. A fifth object of the present invention is to provide a coating material that can effectively reduce the boiling noise when used in a water heater. A sixth object is to provide a coating material having excellent corrosion resistance and durability. A seventh object is to provide a coating material that can improve the appearance by reducing the roughness of the surface of the coating layer.

An eighth object of the present invention is to provide a water heater having improved quietness by using a coating material which achieves the above objects. It is a ninth object of the present invention to provide a water heater in which noise such as scales is prevented from adhering to improve the quietness.

[0007]

The first means of the present invention for achieving the first object is a coating material in which hollow and porous microcapsules are added to a coating material.

The second means of the present invention for achieving the second object is, in particular, microcapsules, alkaline earth metal salts such as calcium carbonate, calcium silicate, magnesium silicate, and silica, alumina, titanium oxide. The coating material is made of a porous filling material containing at least one of the above metal oxides.

The third means of the present invention for achieving the third object is that the paint is a coating material containing a fluororesin.

A fourth means of the present invention for achieving the fourth object is to provide a coating material having a fluororesin content of 80% by weight or less.

A fifth means of the present invention for attaining the fifth object is to provide a coating material containing a tetrafluoroethylene resin as the fluororesin.

The sixth means of the present invention for achieving the sixth object is to provide a coating material in which 3 to 50% by weight of microcapsules is added to the solid content of fluororesin.

The seventh means of the present invention for achieving the seventh object is to provide a coating material in which the particle size of the microcapsules is 10 to 140% of the film thickness of the coating.

The eighth means of the present invention for achieving the eighth object is a metal constituting a heating container from the coating material according to any one of the first to seventh means of the present invention. The water heater is provided as a layer on the surface of the substrate.

Further, a ninth means of the present invention for achieving the ninth object is a metal constituting a heating container from the coating material according to any one of the first means to the seventh means of the present invention. The water heater is provided on the surface of a substrate, and a fluorine coating mainly composed of polyether sulfone (PES) is further provided as a surface treatment layer on the water heater.

[0016]

The first means of the present invention is that the hollow and porous microcapsules uniformly dispersed in the coating film convert the vibrational energy of sound generated on the surface of the layer into heat and make the bubbles fine. It acts as a coating material with a high noise reduction effect.

The second means of the present invention is to provide a coating material which is easy to form microcapsules which are porous and have high heat resistance, as microcapsules of alkaline earth metal salts or metal oxides.

The third means of the present invention is to use a coating material containing a fluororesin as a coating material having heat resistance and stain resistance.

The fourth means of the present invention is to provide a coating material having good adhesion to a base material and high noise reduction by setting the content of the fluororesin in the fluorine coating material to 80% by weight or less.

The fifth means of the present invention is to use tetrafluoroethylene resin (PTFE) as the fluororesin for the fluororesin paint.
Is used as a coating material that can reduce the boiling noise more effectively when used in a water heater.

The sixth means of the present invention is to add 3 to 50% by weight of microcapsules to the solid content of the fluororesin so that the boiling noise at the time of boiling is effective without changing the original paint properties. It is a coating material that can reduce

The seventh means of the present invention is to provide a coating material in which the particle size of the microcapsules is set to 10 to 140% of the film thickness of the layer to reduce the roughness and improve the appearance.

The eighth means of the present invention is a water heater in which the coating material provided as a layer on the surface of the metal substrate constituting the heating container acts to enhance the quietness, and the boiling noise during boiling is reduced.

A ninth means of the present invention is to provide a fluorine coating mainly composed of polyether sulfone (PES) as a surface treatment layer on the surface of a metal substrate provided with a coating material to adhere dirt such as scales. It is a water heater that can prevent noise and has improved quietness.

[0025]

【Example】

(Embodiment 1) A water heater according to a first embodiment of the present invention will be described below with reference to FIG. The water heater accommodates therein a heating container 1 having a cylindrical shape with a bottom, a lid 2 that opens and closes the upper part of the heating container 1, a pump 3, and a spout 4 connected to the pump 3 and the heating container 1. . A heater 5 is provided on the bottom surface of the heating container 1. The layer 14 shown in FIG. 2 is provided on the inner surface of the metal substrate 11 that constitutes the heating container 1. The layer 14 is made of a heat-resistant polymer resin such as polyethersulfone / polyimide, a fluororesin, and porous microcapsules 13 mixed therein to a thickness of about 20 μm. The microcapsule 13 has a hollow portion 21 as shown in FIG. 3, and the periphery thereof is made of an alkaline earth metal salt such as calcium carbonate, calcium silicate, magnesium silicate, or silica, alumina, titanium oxide or the like. The structure is surrounded by a porous filling material 22 formed of at least one kind of metal oxide or the like.

With the above-described structure, the water heater operates as a quiet operation noise during temperature rise and boiling. In other words, the microcapsules 13 that are uniformly dispersed in the layer 14 convert the energy of vibration generated by the rupture of bubbles of water vapor (hereinafter, simply referred to as bubbles) generated on the surface of the layer 14 into heat. That is, the microcapsule 13
This is because the hollow portion 21 is formed by using the porous filling material 22 and includes innumerable space layers. Further, when the bubbles are separated from the surface of the layer 14, the microcapsules 13 included in the form of protruding to the surface of the layer 14 act as nuclei of the bubbles.
Therefore, the bubbles are miniaturized. Further, the amount of heat transferred from the heater 5 becomes non-uniform due to the microcapsules 13 arranged in the layer 14, and the amount of heat received by the water in the surface layer portion of the heater 5 per unit time also becomes non-uniform. Therefore, the heat flow rate from the heater 5 can also be suppressed. For these three reasons, the water heater of the present embodiment is quiet.

Table 1 shows the experimental results for confirming the silent effect of the water heater of this embodiment. Experiment N
o1 to 4 are comparative examples, and No1 is that the layer 14 is not provided on the metal substrate 11. No. 2 uses a heat resistant polymer such as polyether sulfone / polyimide as the layer 14. No. 3 is a mixture of a fluororesin and a heat-resistant polymer as the layer 14, and is conventionally used as a water heater.
In No. 4, No. 3 is added with the microcapsules used in the present example as the layer 14.

[0028]

[Table 1]

As is clear from this result, No5
The layer 14 of the present embodiment shown as is extremely effective in reducing the boiling noise.

At this time, when the ratio of the fluororesin forming the layer 14 is changed, the layer 15 is changed as shown in (Table 2).
The adhesiveness and the attenuation characteristic of boiling sound are changed. The evaluation of the adhesiveness is carried out by placing a 4% sodium chloride aqueous solution in the heating container 7 and repeating boiling and heat retention 4000 times. In the table, ○ indicates that the corrosion resistance was good, and × indicates that the coating film was swollen or peeled off.

[0031]

[Table 2]

As is clear from this result, when the content of the fluororesin is large, the effect of reducing the boiling noise is large, but when the content of the fluororesin exceeds 80% by weight, the adhesion to the metal substrate 11 is increased. Is significantly worse.

Next, the results of an experiment in which the types of the fluororesins were changed and the boiling noise levels were compared will be reported based on (Table 3).

[0034]

[Table 3]

As is clear from this result, when the type of the fluororesin used is PTFE (tetrafluoroethylene resin), it is more effective in reducing noise than other fluororesins. The reason for this is that PTFE has a larger melt viscosity at high temperatures than other fluororesins, and since there are many irregularities on the resin surface, attenuation of sound energy due to phase change when sound propagates through the layer is effective. It happens to you.

Next, the microcapsules 1 to be added to the paint
The properties when changing the ratio of 3 are reported based on (Table 4). The ratio of the microcapsules 13 shown in (Table 4) is the ratio to the solid content of the paint.

[0037]

[Table 4]

As can be seen from Table 4, as the amount of microcapsules 13 added increases, the effect on noise reduction improves, but if it is less than 3% by weight, the noise reduction effect decreases and 50% by weight. If the amount of the microcapsules 13 exceeds the above range, the atomization property, thixotropy property, etc. of the coating material are remarkably reduced, and the coating becomes very difficult. In the table, ⊚ indicates that the coating was very good, ○ indicates that the coating was good, and × indicates that the coating was difficult.

Next, the characteristics when the particle size of the microcapsules 13 used is changed will be reported based on (Table 5). The paint used in this example has a ratio of the fluororesin to the heat resistant polymer of 50/50, and the classified microcapsules 13 are mixed therein.

[0040]

[Table 5]

As is clear from this result, if the particle size of the microcapsules 13 is larger than the film thickness of the coating film, the effect of reducing noise during boiling becomes greater. However, on the other hand, the appearance is very rough and it looks bad. Also, it can be seen that the smaller the particle size, the better the appearance, but the silence of the boiling noise is ineffective.

(Embodiment 2) Next, a second embodiment of the present invention will be described with reference to FIG. In this embodiment, the surface treatment layer 15 is provided on the layer 14 described in the first embodiment. The surface treatment layer 15 is made of a fluorine coating mainly composed of polyether sulfone (PES).

With the above-mentioned structure, the water heater is capable of preventing the adhesion of dirt such as scales and improving the quietness. That is, when the use of the water heater is repeated, scales such as calcium components dissolved in water adhere and deposit on the surface of the heating container 7. At this time, if the surface treatment layer 15 composed of a fluorine coating mainly composed of polyether sulfone (PES) is provided, the scale deposited and deposited can be easily wiped off with a cloth wet with water or the like. is there. That is, according to the present embodiment, it is possible to realize a water heater in which dirt such as scales is prevented from adhering and noise is improved.

Experimental results for confirming the antifouling property will be described below. Tap water was poured into the heating container 7, the heater 5 was energized, boiled for 20 minutes, kept warm for 20 minutes, drained, and poured again. The series of operations was repeated 2000 times, and the removal condition of dirt was investigated. is there. To remove dirt, check whether it can be easily wiped off with a cloth moistened with water. As a result, stains can be easily removed with the surface-treated layer 15, but stains cannot be removed between the layer 14 alone and the metal substrate 11 alone.

[0045]

The first means of the present invention converts the vibration energy of sound generated on the surface of a layer into heat when used in a water heater having a structure in which hollow and porous microcapsules are added to the coating material. Also, the generated bubbles are made finer,
It is possible to provide a coating material having a high noise reduction effect.

The second means of the present invention, particularly the microcapsule, is at least one of an alkaline earth metal salt such as calcium carbonate, calcium silicate and magnesium silicate, and a metal oxide such as silica, alumina and titanium oxide. It is possible to provide a coating material using microcapsules having high porosity and high heat resistance as a structure including one.

The third means of the present invention is to provide a coating material having heat resistance and antifouling property, particularly when the coating material contains a fluororesin.

The fourth means of the present invention is to provide a coating material having an improved adhesiveness to a base material, with a fluororesin content of 80% by weight or less.

The fifth means of the present invention is to provide a coating material which is capable of effectively reducing the boiling noise when it is used in a water heater as the fluororesin contains a tetrafluoroethylene resin.

The sixth means of the present invention is to provide a coating material having excellent corrosion resistance and durability, in which the microcapsules are added in an amount of 3 to 50% by weight relative to the fluororesin solid content. is there.

The seventh means of the present invention provides a coating material in which the particle size of the microcapsules is set to 10 to 140% of the film thickness of the coating to reduce the roughness of the surface of the coating layer and improve the appearance. To do.

An eighth means of the present invention is that the coating material constituting any one of the first means to the seventh means of the present invention is provided as a layer on the surface of a metal substrate constituting a heating container, It is intended to provide a water heater with improved quietness.

A ninth means of the present invention is to provide the coating material constituting any one of the first to seventh means of the present invention on the surface of the metal substrate constituting the heating container,
Further, a fluorine coating mainly composed of polyether sulfone (PES) is further provided as a surface treatment layer to prevent adhesion of dirt such as scales and the like, and to provide a water heater with improved noise reduction.

[Brief description of the drawings]

FIG. 1 is a sectional view of a water heater which is a first embodiment of the present invention.

FIG. 2 is a sectional view showing the structure of the heating container.

FIG. 3 is a sectional view showing the structure of the same microcapsule.

FIG. 4 is a sectional view showing the structure of a heating container of a water heater which is a second embodiment of the present invention.

[Explanation of symbols]

 1 Heating Container 11 Metal Substrate 13 Micro Capsule 14 Layer 15 Surface Treatment Layer 22 Porous Filling Material

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁶ Identification number Internal reference number FI Technical display location F24H 1/18 F24H 1/18 P (72) Inventor Tsuneo Shibata 1006 Kadoma, Kadoma, Osaka Prefecture Matsushita Denki Sangyo Co., Ltd.

Claims (9)

[Claims] 1. A coating material in which hollow and porous microcapsules are added to a coating material. 2. Microcapsules are made of calcium carbonate.
The coating material according to claim 1, comprising a porous filling material containing at least one of an alkaline earth metal salt such as calcium silicate and magnesium silicate, and a metal oxide such as silica, alumina and titanium oxide. 3. The coating material according to claim 1, wherein the coating material contains a fluororesin. 4. The coating material according to claim 3, wherein the fluororesin content is 80% by weight or less. 5. The coating material according to claim 3, wherein the fluororesin contains a tetrafluoroethylene resin. 6. The coating material according to claim 1, wherein 3 to 50% by weight of microcapsules is added to the fluororesin solid content. 7. The coating material according to claim 1, wherein the particle size of the microcapsules is 10 to 140% of the film thickness of the coating. 8. A water heater in which the coating material according to any one of claims 1 to 7 is provided as a layer on the surface of a metal substrate that constitutes a heating container. 9. The coating material according to claim 1, which is provided on the surface of a metal substrate constituting a heating container, and further has a polyether sulfone (PE) formed thereon.
A water heater provided with a fluorine coating mainly composed of S) as a surface treatment layer.