KR20180046530A - A ventilation instrument of disinfection, dehumidification and heating for environmental cultivation in a plastic greenhouse - Google Patents

Abstract

The present invention relates to a device which greatly improves sterilization, dehumidification, and heat generation and, more specifically, to a sterilization, dehumidification, and heat generation blower for an eco-friendly house cultivation which can be used semi-permanently by having less power consumption, having no seasonal use limitation, and having less expendable supplies and can eliminate adverse effects on workers, cultivated plant, and environment by ozone or the like by completely removing ozone or the like generated in a sterilization process. The present invention comprises: a suction duct which takes in air from the outside by having a plurality of suction holes; a dehumidification unit which is positioned in the upper part of the suction duct and removes moisture of air coming from the suction duct; a sterilization and collection unit which sterilizes the dehumidified air passed through the dehumidification unit; an ozone removal unit which removes ozone existing in air passed through the sterilization and collection unit; and a heat generation discharge unit which heats air passed through the ozone removal unit and provides an air flow.

Description

[0001] The present invention relates to a sterilizing, dehumidifying, and heating blower for cultivating an eco-friendly house,

The present invention relates to an effective upright sterilizing and dehumidifying heating blower device required for cultivating environmentally friendly vinyl houses.

Recently, under the global concern of green growth, the environment-friendly agricultural law, which minimizes environmental pollution but does not fall in comparison with existing methods, has attracted a great deal of attention in the current situation where foreign low-priced agricultural products are pouring due to economic liberalization such as FTA. Therefore, various methods have been invented in order to develop eco-friendly farming method that does not deteriorate economical efficiency due to environmental preservation.

Among them, in the method of cultivating greenhouse, proper control of light quantity, temperature and humidity is not only a main factor for determining proper plant growth, but also an important environment that can reduce the incidence of insect pests and increase the prevention function against insect pests Element.

In addition, in the case of diseases that may occur in the greenhouse cultivation, temperature and humidity are important diseases, except for scaly diseases such as gray mold, anthracnose, anthrax, etc., which are typical infectious diseases, and wilt disease, Environment. Therefore, maintenance of proper temperature and humidity and sterilization of airborne molds are fundamental factors of environmentally friendly farming.

In this method of fungus sterilization, most of the existing inventions used a method of sterilizing by chemical and genetic engineering methods. Among them, patent No. 0822402 'Agricultural Household Heating Fans' It is designed to sterilize by using the phenomenon that the air passing through the heat generator is heated at the same time. However, since the heat generator is used only when the room temperature is raised due to its nature, it is limited in the season in which it is used for sterilization, There is a disadvantage that consumption is large.

As a method of sterilizing by using a filter, patent 10-0473538 'Biological fluid sterilizing apparatus and method' can be cited, which discloses the invention of a biological filter for inactivating a specific microorganism, 0241101 " Gas suction filter apparatus " discloses a method of providing a suction filter apparatus for removing microorganisms and fine particulate solids using a liquid filter. However, in the case of using such a filter, there is a disadvantage that it is necessary to replace the filter after the filter is used for a certain period of time.

It is an object of the present invention to provide an apparatus for sterilizing, dehumidifying and greatly improving the efficiency of heat generation. The apparatus of the present invention is characterized in that power consumption is not large, And to provide a device that can be used continuously and semi-permanently.

It is another object of the present invention to provide an apparatus for removing ozone generated during a sterilization process, thereby eliminating adverse effects on workers, cultivated plants, and the surrounding environment by ozone or the like.

In order to solve the above-mentioned conventional problems and to solve the technical problems, the sterilizing, dehumidifying, heat generating blower for cultivating environment friendly house according to the present invention comprises:

A suction duct having a plurality of suction holes for sucking air from the outside,

A dehumidifying part located above the suction duct to remove moisture from the air introduced from the suction duct,

A sterilizing and collecting unit for sterilizing the dehumidified air passing through the dehumidifying unit,

An ozone removing unit for removing ozone present in air passing through the sterilizing and collecting unit,

And a heat discharging unit for heating the air passing through the ozone removing unit and providing a flow of air.

The ozone removing unit is characterized in that the ozone removing unit is made of a photocatalyst in which a copper manganese metal foam is coated with a manganese dioxide catalyst to react with UV.

The sterilizing, dehumidifying, and heat generating blower for environmentally friendly house cultivation according to the present invention has greatly improved sterilization, dehumidification, and heat generation efficiency through the above-described problems. There is no seasonal use restriction, and it is possible to cultivate eco-friendly vinyl house by making it possible to use it while maintaining the existing efficiency in a semi-permanent manner due to few consumables.

That is, the present invention is installed in an upright position on the lower part of a vinyl house, and sucks the lower air of the house, drying and sterilizing the air by the dehumidifying part and the sterilizing and collecting part, discharging the air by the exhaust duct in the upper part, The temperature can also be supplemented, and during this auxiliary temperature ramp up, additional sterilization effects will be obtained.

In addition, the sterilizing, dehumidifying, and heating blower for cultivating an eco-friendly house according to the present invention completely removes ozone generated in the sterilizing and collecting part, thereby eliminating adverse effects on workers, cultivated plants, Effect.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view of a sterilizing, dehumidifying and heating blower for environmentally friendly house cultivation of the present invention. FIG.
2 is a side view of the sterilizing dehumidifying heat generating blower for environmentally friendly house cultivation of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a sterilizing, dehumidifying and heating blower for cultivating an environment friendly house according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a front view of a sterilizing, dehumidifying, and heating blower for cultivating an eco-friendly house of the present invention, and FIG. 2 is a side view of a sterilizing and dehumidifying heat generating blower for cultivating an eco-friendly house of the present invention.

1 and 2, the sterilizing dehumidification heating blower for cultivating an environmentally friendly house according to the present invention includes a suction duct 10 having a plurality of suction holes at the front thereof so that air is sucked from the outside, A sterilizing and collecting unit for sterilizing and collecting foreign substances such as bacteria and dust contained in the air sucked and dehumidified by the dehumidifying unit, and a dehumidifying unit for preventing the humidity from rising above a predetermined value above the suction duct An ozone removing unit 40 for receiving the dehumidified and sterilized air to remove ozone contained therein, a blower for receiving ozone depleted and dehumidified and sterilized air to heat and provide air flow, And a control unit for controlling the heat emission unit 50 and the mechanism and setting the temperature, the humidity, and the time, and displaying the result.

Specifically, a suction duct 10, which is a portion where air is sucked from the outside, is formed in the lower portion of the apparatus, and a plurality of suction holes are formed in the front portion for easy suction.

A humidifier 20 for removing moisture to regulate the humidity of the outside air introduced from the suction duct 10 and a compressor for compressing the refrigerant are provided on the upper portion of the suction duct 10. do.

Here, the compressor serves to compress refrigerant such as CFC gas, and the dehumidifying pipe 20 is configured as a micro tube so that the refrigerant compressed and condensed in the compressor can be vaporized through phase change and absorb heat. do. Accordingly, the moisture of the air introduced from the suction duct (10) is condensed and filtered in the dehumidifying pipe (20).

The dehumidified air through the dehumidifying pipe 20 is sterilized by the sterilizing and collecting unit 30. The sterilizing and collecting unit 30 includes an ionizer, a collector, and a high voltage generator.

Here, in the sterilization process, a high voltage of several kV supplied by the high voltage generator is applied between the electrode made of wire and the flat plate electrode to charge the fungus passing through the ionizer.

Then, using the collector, fungus charged with electric charge according to the generated ions is effectively adsorbed on the surface of the electrode without passing through the high-voltage flat plate electrode provided in a zigzag manner.

In this case, in order to remove the parasitic mold according to the surface adsorption, it is preferable that the collector has a structure that is easy to desorb. That is, in order to improve the ease of cleaning and exchange of the collector, the collector shape is configured as a drawer type so that the collector can be attached and detached.

To summarize the sterilization process, a high voltage is applied to the inhaled fungus so that the fungus is ionized so as to have a charge, so that the collector absorbs the parasitic bacteria on the surface of the electrode.

The sterilized air passing through the sterilizing and collecting unit 30 has a certain amount of ozone generated by the application of the high voltage of the sterilizing and collecting unit 30. When the generated ozone is discharged to the outside of the apparatus, There is a problem in that the seedlings are clogged with cultivated crops.

In order to solve this problem, in the present invention, the ozone removing unit 40 is positioned above the sterilizing and collecting unit 30.

The ozone removing unit 40 uses a photocatalyst method in which a copper manganese metal foam is coated with a manganese dioxide catalyst to react with UV, and the reaction formula thereof is as follows.

When ozone reacts with copper oxide (CuO) and manganese dioxide (MnO ₂ ) as a catalyst, it is converted into oxygen (O ₂ ) to supply oxygen.

In the present invention, by applying a metal foam, the contact area between the gas passing through the ozone removing unit 40 and the gas passing therethrough can be maximized, the sterilizing performance can be maximized, the pressure loss due to porosity can be reduced, It also has the ability to block electromagnetic waves.

The air that has passed through the ozone removal unit 40 is discharged to the outside through the heat emission unit 50 installed in the upper part of the ozone removal unit 40.

The heat generating and discharging unit 50 heats the air passing through the ozone removing unit 40 and imparts fluidity to the fluid to move the fluid. For this purpose, a dust collecting fan is provided.

In order to discharge the airflow passing through the dust-collecting fan to the outside, the hot-air discharge duct is formed with a structure of easy discharge. To this end, a plurality of plate-shaped discharge openings are preferably provided.

Meanwhile, a heat generator is installed on the dust collecting fan to apply a high heat source to the air flow discharged to the outside.

The heat generator selectively operates when the user desires to raise the temperature. To this end, the heat generator is composed of two PTC (positive temperature coefficient) heating elements each having a capacity of 3 kW.

In this case, it is possible to discharge the hot air by raising the temperature of the air introduced into the heater by using the PTC heating element. In this case, depending on the heat characteristic of the heating element, It is also possible to operate with an auxiliary sterilizer which is possible.

In addition, the device for controlling the heating blower in the present invention controls the process of dehumidifying, sterilizing, and heating the heated air, and sets the temperature, humidity, and time, and displays the result.

The process flow of the sterilizing dehumidifying heat generating blower according to the present invention having the above-described structure will be briefly described. First, air is sucked from the outside through the suction duct 10. Subsequently, the sucked air passes through the dehumidifying pipe 20, and moisture is condensed to remove moisture.

When a high voltage is applied to the wire constituting the electrode and the flat plate electrode through the high voltage generator, ions are generated through the ionizer and the charged fungus is adsorbed on the electrode surface.

The air that has been dried and sterilized passes through the ozone removal unit 40 at the upper part of the ozone removal apparatus, thereby removing ozone, generating a flow of air through the upper dust collecting fan, and discharging wind generated through the exhaust duct to the outside. In this case, if necessary, the heat generator provided at one side of the upper front may be operated for generation of hot air.

The sterilizing, dehumidifying, and heat generating blower for environmentally friendly house cultivation according to the present invention is a blower device with improved sterilization, dehumidification and heat generation efficiency. It is possible to cultivate an eco-friendly vinyl house by making it possible to use it while maintaining the existing efficiency in a semi-permanent manner due to a small number of consumables. By completely removing ozone generated in the sterilizing and collecting unit 30, The harmful effects on the cultivated plant and the surrounding environment can be solved.

10: Suction duct
20: My custom
30: sterilization and collection section
40: ozone removal
50:

Claims (1)

A blower for cultivating an environment friendly greenhouse,
A suction duct having a plurality of suction holes for sucking air from the outside,
A dehumidifying part located above the suction duct to remove moisture from the air introduced from the suction duct,
A sterilizing and collecting unit for sterilizing the dehumidified air passing through the dehumidifying unit,
An ozone removing unit for removing ozone present in air passing through the sterilizing and collecting unit,
And a heating / discharging unit for heating the air passing through the ozone removing unit and providing a flow of air.
Disinfection and dehumidifying heat blower for environment friendly house cultivation.

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