KR200416829Y1 - A Dishwater Bucket for Sink - Google Patents

Abstract

The present invention relates to a sink for the sink, and more particularly, to a sink for the sink having a high hardness on the surface of the sink, and a high hardness coating film is easy to remove contaminants.

The present invention, in the sink for the sink is formed in the sink for opening and closing the water to temporarily store the water used to wash the dishes, and the used water can be drained to the bottom, the sink surface for the sink And a hardened coating film formed by stirring and coating a hardener composed of an alkali metal oxide and an alkali silicate and a base composed of a metal oxide and a metal phosphate. It provides a sink for sink.

Sink, sink, sink bowl, coating

Description

A Dishwater Bucket for Sink}

1 is an exploded perspective view showing the structure of a sink for a general sink.

2 is a partial cross-sectional view showing a state of scratches and contaminants formed on the surface of a conventional water bottle.

3 is a cross-sectional view showing the structure of a coating film according to an embodiment of the present invention.

4 and 5 are cross-sectional views showing a state in which a contaminant is deposited on the surface of the coating film according to an embodiment of the present invention.

The present invention relates to a sink sink, and more particularly, to a sink sink having a high hardness on the surface of the sink sink, a high hardness coating film is easy to remove contaminants.

In general, the kitchen or the kitchen of the kitchen is provided with a sink for washing dishes or vegetables, such a sink is produced and installed in various ways depending on the shape and size of the kitchen.

The sink is configured in the form of a container with an open top, and temporarily accommodates and stores water for washing dishes, and is provided with a water outlet having a drain hole to drain the used water to the bottom.

1 is an exploded perspective view showing the structure of a general sink sink. Hereinafter, the structure of the sink sink in detail with reference to FIG.

First, the sink 10 for the sink is formed in a container shape having an upper portion having an inner space so as to accommodate water therein. A drain hole 14 is provided to connect water to a lower portion of the water tank, and a drain hole is formed at the bottom surface of the water tank so as to install the drain hole 14, and a stepped portion is formed at the edge of the water hole. 12) is formed is installed in the form that the upper edge portion of the drain port seated on the step.

At this time, the upper edge of the drain and the bottom surface of the water tank is preferably installed on the same surface as possible so that the water can be smoothly drained without accumulation. And it is preferable to prevent the leakage of water by treating the silicon and the like between the drain seat seated on the step.

In addition, the drain 14 is provided with a strainer 22 that can filter the food waste generated during the washing in the bucket, the strainer is preferably formed in a circular shape.

And it is formed on the bottom surface of the water tank and the seating groove 16 is further formed to be located to the outside of the drain opening larger than the upper edge portion of the drain. The seating groove 16 is seated in the seating groove 16 to open and close the drain hole. The stopper 20 and the seating groove 16 are formed larger than the outer edge of the drain hole 14. The connection portion can be covered, so that water can be prevented from leaking through the connection portion of the drain.

In addition, the seating groove 16 and the stopper 20 may be formed in a rectangular shape formed larger than the outer diameter of the drain, it may be made in a variety of forms, such as circular or oval.

Water is temporarily accommodated and stored in the water container 10, and the water containing water can contain various contaminants such as food. Therefore, in the case of using the water bottle repeatedly several times, the surface is polluted with a large amount of contaminants, and these contaminants not only look good, but also cause many problems in hygiene.

In addition, the water bottle is often used to wash or use a tool having a high hardness, such as a tableware, cooking utensils made of metal or porcelain material, so that a lot of scratches generated by scratching the surface of the water bottle in the continuous use process have. As shown in FIG. 3, since the scratched part is damaged and the surface of the water bottle 10 is formed to form a fine groove 18, the above-described contaminants 11 remain more, and a groove of a constant depth is provided. Since contaminants remain, there is a problem that removal is more difficult during the cleaning process.

An object of the present invention is to provide a sink for the sink formed to prevent the adhesion of contaminants on the surface and a high hardness coating film excellent in hardness.

In order to achieve the above object, the present invention, in the sink for sinks formed with a drain opening to be opened and closed by a stopper to temporarily store and use water to wash dishes and used water can be drained to the bottom On the surface of the sink sink, a hardened surface coated with a stirring agent made of an alkali metal oxide and an alkali silicate and a base made of a metal oxide and a metal phosphate. Provides a sink for the sink, characterized in that the coating film is formed.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the subject innovation.

First, the sink for the sink according to the present invention also has the same structure as that of the prior art. Therefore, the structure of the sink for sink according to the present invention is not repeated here.

In the sink for sink according to the present invention, it is characterized in that a high hardness coating film is formed on the surface. In particular, the high hardness coating film should be formed on a space portion in which a dish or water is contained and a top surface connected to the space portion in the sink sink. Therefore, when the sink canister is installed in the sink, the high hardness coating film may not be formed on the bottom surface of the canister that is not exposed to the outside.

Hereinafter, the structure of the high hardness coating film and its manufacturing method will be described in detail.

First, the structure of the high hardness coating film 30 according to the present invention is formed as a double film on the surface of the sink 10 for the sink. That is, a double film formed of a phosphate film 32 and a high hardness film 34, which is a part in direct contact with the surface of the water tank 10, is formed. Here, the phosphate film 32 serves to strongly adhere the high hardness film 34 and the water bottle 10. Therefore, in the manufacture of the sink for the sink according to the present invention, as a pretreatment process before the coating operation of the high hardness film, the phosphate film is generated by the reaction of the components of the paint itself without performing a separate undercoating process and a sending process Therefore, there is an advantage of forming a high hardness film having a strong adhesion with the surface of the water bottle by a single coating.

In addition, the high hardness film 34 is a coating film formed of a pure inorganic material, has excellent hardness, and molecules having hydrophilic properties are disposed on the surface thereof, thereby significantly reducing contamination by oily contaminants such as oil. In addition, even if pollution actually occurs, the pollutant can be easily removed by water.

Hereinafter, a process of forming such a high hardness coating film will be described in detail.

First, a pure inorganic paint should be prepared to form a coating film. The paint used in the present invention consists of a hardener and a base. At this time, it is preferable to mix the curing agent and the base to be about 1: 1 by weight ratio. When the curing agent and the base are mixed, the curing agent and the base are mixed with water, followed by stirring at a speed of 10 to 30 RPM or 40 to 100 RPM or 300 to 800 RPM.

At this time, the curing agent serves to promote the curing of the coating film, and becomes the main constituent material of the coating film. That is, the curing agent forms an alkali silicate (calcination formula: M ₂ 0 · nSiO ₂ · mH ₂ O, where M is an alkali metal) when the coating is performed using the pure inorganic paint used in the present invention. do.

The structure of the alkali silicate is a three-dimensional structure in which alkali metal atoms are sealed in a tetrahedral structure made of silicon. Such a curing agent is preferably composed of alkali metal oxides and alkali silicates. In this case, the alkali metal oxide is formed by selecting and mixing any one or two or more selected from the group consisting of potassium oxide (K ₂ O), sodium oxide (Na ₂ O), lithium oxide (Li ₂ O), and the like. desirable.

Next, the base serves to form the phosphate film 32 formed between the water bottle 10 and the high hardness film 34 in the coating structure shown in FIG. 3. The base according to the present invention is preferably made of metal oxide (metal oxide), metal phosphate (metal phosphate), alkali silicate and the like. In this case, the metal oxide is formed of one selected from zinc oxide (ZnO), aluminum oxide (Al ₂ O ₃ ), calcium oxide (CaO), magnesium oxide (MgO), or formed by selecting two or more selected and mixed. It is preferable. The metal phosphate is preferably any one of aluminum phosphate and zinc phosphate or a mixture thereof.

At this time, the process of forming the phosphate film is as follows.

H ₃ PO ₄ + Al (OH) _3- > Al (H ₂ PO ₄ ), Al ₂ (HPO ₄ ) ₃ , AlPO ₄

Al (H ₂ PO ₄ ) + MO-> AlPO ₄ + M (H ₂ PO ₄ ) ₂

M (H ₂ PO ₄ ) _2- > MHPO ₄ , 3H ₂ O

Hereinafter, a process of coating the surface of the water bottle with the pure inorganic paint obtained by the above-described process will be described.

First, the pretreatment process for the surface of the water tank is performed. This process may not be necessary if the surface of the canisters is clean and uncontaminated. However, in order to obtain a better coating film, the pretreatment process is performed on the surface of the water tank.

The pretreatment process may include a degreasing washing process for first removing impurities on the surface of the water tank. That is, when foreign matter is deposited on the surface of the water tank, the coating may be abnormally generated on the part, and abnormality may occur on the surface of the coating film.

Next, the coating process proceeds. In the present invention, the coating process may be performed by dividing it into small steps such as a first coating step, a natural drying step, and a second coating step. That is, instead of forming a coating film at once, the coating film is formed by dividing in two. When the coating process is carried out in two times, the coating film becomes dense and the smoothness of the coating film surface is improved.

This coating step is performed at room temperature, it is preferable to perform the coating process so that the thickness of the coating film is about 0.1 ~ 15㎛. If the thickness of the coating film is 0.1㎛ or less, the hardness of the coating is weakened, if it is 15㎛ or more, the light transmittance is low, it is because the properties of the transparent coating can not be obtained.

Next, a natural drying process is performed. Through this process, the water present in the coating film is removed and the coating film formed on the surface of the water bottle is primarily cured. In the present invention, this drying process is carried out at a temperature of about 10 to 40 ℃ for more than 10 minutes. This is because when the temperature is 10 ° C. or less, the drying time becomes long, the drying state is poor, and when the temperature is 40 ° C. or more, deformation may occur in the coating film due to rapid drying.

Next, the baking process which fully hardens the formed coating film advances. In the present invention, the predetermined process is carried out in such a manner that the temperature inside the kiln is raised from room temperature to the maximum temperature and then lowered to room temperature again. That is, the water tank in which the coating film was formed is thrown into a kiln, and the temperature inside a kiln is raised. When the temperature inside the kiln reaches the first firing temperature, the temperature is not increased any more, and the process of maintaining the temperature inside the kiln at the first firing temperature or gradually increasing the temperature is maintained for at least 10 minutes.

When the primary firing process is completed, the temperature inside the firing furnace is increased again. When the temperature inside the kiln reaches the maximum temperature, the temperature does not increase any more and the temperature lasts at least 10 minutes while maintaining the temperature inside the kiln.

In this way, when the primary and secondary firing processes are completed, a cooling process of cooling the calcined water bottle to room temperature is performed. This cooling process is a process of lowering the temperature of the water tank to room temperature. At this time, the cooling process may be carried out by lowering the temperature in the same manner as the primary and secondary firing processes, and then maintaining the temperature at a predetermined temperature for a predetermined time and then decreasing the temperature again.

The sink for the sink according to the present invention is formed with a high hardness coating film, so even when contamination occurs due to the organic material such as food, food, human fingerprints, etc. on the surface of the coating film 30, washing with water to remove the organic material easily There is an advantage to this. That is, as shown in Figure 4, when the contamination of the organic material 11 occurs on the surface of the coating film, since the molecules of water-friendly properties are disposed on the surface of the coating film of the present invention, the organic material is strongly bonded to the coating film can not do. Rather, as shown in FIG. 5, when the water (W) is buried, the surface of the coating layer 34 is strongly bonded to the water to cause the phenomenon of floating the organic material 11. Therefore, the organic material can be easily removed by water.

In addition, the coating film of the present invention has a high coating film hardness of 8H or more. Therefore, there is an advantage that the scratch is not formed on the surface of the water bottle even when colliding with an object having a high hardness, such as tableware in the process of use.

Claims (5)

In the sink for the sink is formed by temporarily storing the water used to wash the dishes, etc., and used water drainage opening and closing by a stopper to drain the finished water, On the surface of the sink sink, a high hardness coating of a curing agent composed of an alkali metal oxide and an alkali silicate, and a base made of a metal oxide and a metal phosphate, with stirring Sink for the sink, characterized in that the coating film is formed. The method of claim 1, wherein the alkali metal oxide, A sink for a sink, characterized in that any one selected from potassium oxide (K ₂ O), sodium oxide (Na ₂ O), lithium oxide (Li ₂ O). The method of claim 1, wherein the metal oxide, A sink for a sink, characterized in that any one selected from zinc oxide (ZnO), aluminum oxide (Al ₂ O ₃ ), calcium oxide (CaO), magnesium oxide (MgO). The method of claim 1, wherein the metal phosphate, A sink for a sink, characterized in that any one or a mixture of aluminum phosphate or zinc phosphate. According to claim 1, The sink for sink, A sink for a sink, characterized in that made of stainless steel.

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