KR20240015195A - Steam generator for humidifier - Google Patents

Abstract

The present invention relates to a water vapor generating device for a humidifier that is installed at the bottom of the water tank of the humidifier and generates water vapor from water for humidification.
This invention is installed at the bottom of the water tank of a humidifier to change water into steam for humidification, and includes a heating plate installed on the front of the main body; A heating rod installed on one side of the lower surface of the heating plate to heat the heating plate; And a functional ceramic coating layer coated on the upper surface of the heating plate. The technical gist is a water vapor generating device for a heated humidifier, characterized in that it consists of.

Description

Steam generator for humidifier}

The present invention relates to a water vapor generating device for a humidifier that is installed at the bottom of the water tank of the humidifier and generates water vapor from water for humidification.

In general, a humidifier is used in places such as homes, offices, hospitals, etc. during the dry season when humidity is relatively low. It is a device that performs a humidifying function to increase indoor humidity by evaporating water in a water container into steam and then releasing it into the air. am.

These humidifiers are divided into heating humidifiers, which heat water to vaporize it and release it into the air, and ultrasonic humidifiers, which apply ultrasonic vibration to water to vaporize it and release it into the air, depending on how they operate to vaporize water.

Here, the heated humidifier has the advantage of having an excellent humidifying effect due to the heat in the water vapor and not requiring separate internal cleaning with high-temperature water. Additionally, ultrasonic humidifiers have the advantage of not heating the water, so there is no risk of burns.

However, heated humidifiers have the disadvantage that not only is it difficult to clean as inorganic scale is deposited on the surface of the heating plate as it is heated, but the service life is shortened as the Teflon coated on the surface of the heating plate is easily detached by heat and physical contact. . In addition, ultrasonic humidifiers have the disadvantage of being harmful to the human body as they only apply ultrasonic vibrations to water, so the inside must be cleaned periodically and disinfectants are used during cleaning.

Therefore, in order to prevent the deposition of inorganic scale to ensure service life and eliminate the harmfulness to the human body by eliminating the need for internal cleaning, the advantages of heated humidifiers and ultrasonic humidifiers are utilized while the disadvantages of heated humidifiers and ultrasonic humidifiers are eliminated. Research and development on a water vapor generator for humidifiers that can solve this problem is needed.

Republic of Korea Patent Publication No. 10-1441819, published on September 18, 2014. Republic of Korea Patent Publication No. 10-0628464, published on September 28, 2006.

The present invention was invented to solve the above problems. It can prevent the deposition of inorganic scale to ensure service life and eliminate the harmfulness to the human body by eliminating the need for internal cleaning, so that ultrasonic waves are applied to the lower surface of the heating plate. Provided is a water vapor generating device for a humidifier in which a vibrator is attached and can be used in either a heating or ultrasonic method, and the upper surface of the heating plate is coated with a ceramic containing a functional material to minimize the deposition of inorganic scale. There is a purpose.

The object of the present invention is not limited to the object mentioned above, and other objects not mentioned can be clearly understood from the description below and can be fully included in the object of the present invention.

The water vapor generating plate for a humidifier according to the present invention to achieve the above object is installed at the bottom of the humidifier body to change water into water vapor for humidification,

A heating plate installed on the front of the main body; A heating rod installed on one side of the lower surface of the heating plate to heat the heating plate; and a functional ceramic coating layer coated on the upper surface of the heating plate.

The water vapor generating device for a humidifier according to the present invention with the above configuration can expect the following effects.

First, a heating rod and an ultrasonic vibrator are installed on one side and the other side of the lower surface of the heating plate, so that it can be used by selecting one of the heating mode that generates water vapor by heating and the ultrasonic mode that generates water vapor by ultrasonic method.

In addition, the upper surface of the heating plate is sequentially coated with a first coating layer that exhibits far-infrared ray radiation function, deodorizing function, antibacterial function, and anti-fungal function, and a second coating layer that exhibits water-repellent function and non-stick function to prevent the occurrence of mold and bacteria. By preventing sphagnum moss and mineral scale from depositing on the surface, the humidifier can be easily cleaned without disinfectants and the durability of the heating plate can be ensured.

In addition, when operating in heating mode, the ultrasonic vibrator is operated at regular time intervals or the user operates the ultrasonic vibrator, and a small amount of inorganic scale attached to the surface of the heating plate is easily peeled off by the vibration caused by the operation of the ultrasonic vibrator. Since it can be removed, you can clean and maintain the humidifier more conveniently.

Figure 1 is a cross-sectional view showing a water vapor generating device for a humidifier according to a preferred embodiment of the present invention.

The present invention is installed in the body of a humidifier used in dry seasons where humidity is relatively low in places such as homes, offices, hospitals, etc., and performs a humidifying function to increase indoor humidity by evaporating the water in the water bottle into steam and then releasing it into the air. It relates to a water vapor generating device for a humidifier.

In particular, the water vapor generating device for a humidifier according to the present invention has a major feature in that it can guarantee a service life by preventing the deposition of inorganic scale and eliminates harmfulness to the human body by eliminating the need for internal cleaning.

This feature includes a heating plate, a heating rod installed on one side of the lower surface of the heating plate, an ultrasonic oscillator installed on the other side of the lower surface of the heating plate, and a plurality of coating layers coated on the upper surface of the heating plate and containing a ceramic sol and a functional material. It can be achieved by.

Hereinafter, the water vapor generating device 100 for a humidifier according to a preferred embodiment of the present invention will be described in detail with reference to the attached drawings.

The water vapor generating device 100 for a humidifier according to a preferred embodiment of the present invention is installed on the inner bottom of the water tank of the humidifier to generate water vapor from water, and as shown in FIG. 1, it includes a heating plate 10 and a heating rod 20. , It may be composed of an ultrasonic transducer 30 and a functional ceramic coating layer 40.

First, the heating plate 10 is installed on the inner bottom of the water tank provided in the humidifier body and may have a flat plate shape.

At this time, the heating plate 10 is made of a metal material including aluminum and can be formed into a flat shape through forming processing.

Additionally, a support 11 may be installed on the heating plate 10 to support it horizontally on the inner bottom of the water tank.

That is, the support 11 can be installed vertically along the edge of the lower surface of the heating plate 10 to support the heating plate 10 horizontally.

However, before coating the functional ceramic coating layer 40 on the upper surface of the heating plate 10, a degreasing process is performed to remove oil or contaminants remaining on the surface, and burrs or irregularities present on the surface are removed. A shot peening process for removal, a sandblasting process to increase the roughness of the surface to facilitate painting of the functional ceramic coating layer 40, and a 30~30% coating process to prevent the coating film from flowing when painting the functional ceramic coating layer 40. A preheating process of preheating to 70°C and a dust removal process of removing dust attached to the surface with compressed air can be performed sequentially.

Next, the heating rod 20 is installed on one side of the lower surface of the heating plate 10 and can heat the heating plate 10 while generating heat according to electrical energy applied from the outside.

That is, the heating rod 20 can heat the water contained in the water tank through the heating plate 10 to heat the heating plate 10 to a predetermined temperature to generate water vapor.

Next, the ultrasonic vibrator 30 is installed on the other side of the lower surface of the heating plate 10 and can generate ultrasonic vibration according to electrical energy applied from the outside and transmit it to the heating plate 10.

That is, the ultrasonic vibrator 30 can transmit ultrasonic vibration to the heating plate 10 to generate water vapor by applying ultrasonic vibration to the water contained in the water tank through the heating plate 10.

Therefore, when the user selects and operates the operation switch provided on the humidifier according to need and situation, the heating rod 20 operates to heat the heating plate 10 and the humidifier can be driven in a heating manner to change water into steam, and the ultrasonic oscillator (30) may operate to drive the humidifier in an ultrasonic manner by applying ultrasonic vibration to the water through the heating plate 10 and changing the water into water vapor.

In addition, the ultrasonic vibrator 30 may operate automatically at regular time intervals by an operation timer when the heating rod 20 operates, or manually as the user operates the operation switch when the heating rod 20 operates. It might work.

Next, the functional ceramic coating layer 40 is formed on the upper surface of the heating plate 10 to minimize the disadvantage of inorganic scale being deposited on the upper surface of the heating plate 10 and release the functional material on its own, thereby ensuring the cleanliness of the humidifier. This can make it easier to clean and maintain the humidifier.

Here, the functional ceramic coating layer 40 may be composed of a first coating layer 41 and a second coating layer 42.

The first coating layer 41 may be formed by coating the upper surface of the heating plate 10 with a first coating solution mixed with a functional material for imparting color and function to the ceramic sol.

At this time, the first coating liquid is a ceramic sol with a solid content of 25-35% and exhibits functions such as far-infrared rays, antibacterial, deodorizing, and anti-fungal properties that suppress the occurrence of sphagnum moss, mold, bacteria, and odor that may occur inside the water tank of the humidifier. At least one functional material selected from TiO _2, tourmaline, red clay, and elvan may be uniformly mixed to form the composition.

However, the functional material can be mixed at a ratio of 5 to 45 parts by weight per 100 parts by weight of the ceramic sol. If it is mixed in less than 5 parts by weight, the color is not expressed properly and the functional materials such as far-infrared ray, antibacterial, deodorizing, anti-fungal properties, etc. It does not exhibit its functionality properly, and if mixed in excess of 45 parts by weight, spray painting is difficult, and there is a high risk of cracking due to roughness of the painted surface and poor adhesion when dried, so it is preferable to mix it in the above ratio.

And the first coating liquid can be applied to the upper surface of the heating plate 10 to a thickness of 10 to 55 ㎛ using a liquid spray device.

The second coating layer 42 may be formed by uniformly mixing a ceramic sol with a solid content of 25 to 35%, a thermosetting oil for water repellency, and a water-resistant silane complex for non-stick properties.

However, the thermosetting oil may be mixed at a ratio of 1 to 25 parts by weight based on 100 parts by weight of the ceramic sol, and the water-resistant silane composite may be mixed at a ratio of 0.5 to 8 parts by weight based on 100 parts by weight of the ceramic sol.

At this time, if the thermosetting oil is mixed in less than 1 part by weight or the water-resistant silane composite is mixed in less than 0.5 parts by weight, the water repellency and non-stick properties cannot be properly demonstrated, and if the thermosetting oil is mixed in more than 25 parts by weight or the water-resistant silane composite is mixed in 8 parts by weight. If the mixture is mixed in excess of the above ratio, it is preferable to mix in the above ratio because not only does economic efficiency decrease, but durability is weak and water repellency and non-stick properties cannot be continuously exhibited.

And the second coating liquid can be applied to the top of the first coating liquid applied to the upper surface of the heating plate 10 to a thickness of 5 to 25 μm using a liquid spray device. That is, the second coating solution can be applied immediately after the first coating solution is applied and before drying, thereby blocking the micropores that exist when applying the first coating solution.

Then, the heating plate 10, on which the first coating liquid and the second coating liquid were sequentially applied to the upper surface, is placed in a tunnel heat treatment machine and dried at 160 to 300° C. for 20 to 30 minutes to form a first coating layer 41 and a first coating layer 41 on the upper surface. The second coating layer 42 may be formed sequentially in a completely dried state.

As described above, the water vapor generating device 100 for a humidifier according to the present invention can generate water vapor in a heating manner by heating the heating plate 10 through the heating rod 20 according to the user's operation, or through the ultrasonic vibrator 30. Water vapor can also be generated ultrasonically by transmitting ultrasonic vibration to the heating plate 10.

In addition, the first coating layer 41 and the second coating layer 42 are sequentially coated on the upper surface of the heating plate 10, thereby exerting far-infrared ray radiation function, deodorizing function, antibacterial function, and anti-fungal function to prevent the occurrence of mold and bacteria. In addition to suppressing sphagnum moss and mineral scale from being deposited on the surface, the humidifier can be easily cleaned without a disinfectant and the durability of the heating plate 10 can be guaranteed.

In addition, when operating in the heating mode, the ultrasonic vibrator is operated at regular time intervals or the ultrasonic vibrator is operated by the user, so even if a small amount of inorganic scale is deposited on the surface of the heating plate 10, the operation of the ultrasonic vibrator 30 is affected. Since it can be easily peeled off by vibration, the humidifier can be cleaned and maintained more conveniently.

The above-described embodiments are merely illustrative, and various modifications thereof are possible for those skilled in the art.

Therefore, the true technical protection scope of the present invention should include not only the above embodiments but also other variously modified embodiments according to the technical spirit of the invention described in the claims below.

10: Heating plate
11: support
20: heating rod
30: Ultrasonic vibrator
40: Functional ceramic coating layer
41: first coating layer
42: second coating layer
100: Steam generator for humidifier

Claims (5)

It is installed at the bottom of the water tank of the humidifier and changes water into steam for humidification.
A heating plate installed on the front of the main body;
A heating rod installed on one side of the lower surface of the heating plate to heat the heating plate; and
A water vapor generating device for a heated humidifier, characterized in that it consists of a functional ceramic coating layer coated on the upper surface of the heating plate. According to paragraph 1,
An ultrasonic vibrator is installed on the other side of the lower surface of the heating plate and applies vibration to the heating plate.
When the heating rod is operated, it operates in a heating mode that heats the water by the heating plate to generate water vapor, or when the ultrasonic vibrator operates, it operates in an ultrasonic mode that vibrates the water through the heating plate to generate water vapor. A water vapor generating device for a humidifier, characterized in that when the heating rod is operated, the ultrasonic vibrator operates at regular intervals or by user manipulation to prevent inorganic scale from being deposited on the surface of the heating plate. According to paragraph 1,
The functional ceramic coating layer is
A first coating layer that is painted on the upper surface of the heating plate using a liquid spray method and then dried and coated, and a ceramic sol with a solid content of 25 to 35% is mixed with a functional material selected from TiO ₂ , tourmaline, and at least one of red clay and elvan. ; and
A second coating layer is coated by coating the first coating layer with a liquid spray and then dried together with the first coating layer, and a second coating layer in which a ceramic sol with a solid content of 25 to 35% is mixed with a thermosetting silicone oil and a water-resistant silane complex. A water vapor generating device for a humidifier, characterized in that. According to paragraph 3,
The heating plate is
Before forming the functional ceramic coating layer on the upper surface, water vapor for a humidifier is subjected to degreasing treatment to remove oil or contaminants present on the surface and then shot peening to remove burrs or irregularities present on the surface. Generating device. According to clause 4,
The heating plate is
Before forming the functional ceramic coating layer on the upper surface, after the shot peening process, sand blasting is performed to increase the roughness of the surface, and then the first coating solution is preheated to prevent it from flowing when applied, and then dust attached to the surface is blown with compressed air. A water vapor generating device for a humidifier, characterized in that it is removed by .

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