KR102125170B1 - An IOT Operating Typer of an Air Cleaner Capable of Removing a Micro Particle and a Bacteria Adhered on an Article - Google Patents

Abstract

The present invention relates to a multifunctional IoT-operated type air cleaner removing fine dust attached to an article and having an antibacterial function. The multifunctional IoT-operated type air cleaner comprises: at least one air inflow unit (12a, 12b) in which a space for mounting an article thereon is formed; a sterilization means (13) which emits light or sound waves for sterilizing the at least one air inflow unit (12a, 12b); a filter unit (14) disposed below the sterilization means; and a plasma cluster module (15) which generates a plasma cluster from air that has passed through the filter unit (14).

Description

An IOT Operating Typer of an Air Cleaner Capable of Removing a Micro Particle and a Bacteria Adhered on an Article}

The present invention relates to an air purifier of a multifunctional IOT operation method having fine dust removal and antibacterial function attached to an article, and specifically, a multifunctional IOT operation method having fine particle removal and antibacterial function attached to an article that detects an external environment and controls an operation state It is about the air purifier.

With the development of industry, various types of pollutants are generated, and along with this, the generation of fine dust increases, and thus, the effects on various human health including the respiratory system are increasing. Although various types of air purification equipment with filters installed are used, for example, P _2.5 type fine dust having a diameter of 2.5 μm or less can be removed by a hepa filter, and in the case of a hepa filter with excellent performance, a household or business air cleaner It has the disadvantage that it is difficult to apply to. Patent Publication No. 10-2019-0030812 discloses a filter module for removing fine dust and an air cleaning system for removing fine dust comprising the same. In addition, Patent Publication No. 10-2019-0031836 discloses an air purification system capable of removing fine dust. The fine dust may include various types of bacteria, and it is advantageous that the air purifier has a function of removing bacteria together with the fine dust. The fine dust or bacteria may be attached to clothing, bags, or similar portable articles, such as clothes, after going out to enter the room, and the fine dust or bacteria attached to such articles needs to be removed in an appropriate manner. In addition, it is advantageous that the fine dust is absorbed and removed by, for example, particulate water. However, the prior art does not disclose an air purifier having such a function.

The present invention is to solve the problems of the prior art has the following purposes.

Prior Art 1: Patent Publication No. 10-2019-0030812 (Korea Institute of Machinery and Materials, published on March 25, 2019) Filter module for removing fine dust and air cleaning system for removing fine dust containing the same Prior Art 2: Patent Publication No. 10-2019-0031836 (Amoclean Tech Co., Ltd., published on March 27, 2019) Air purification system capable of removing fine dust

It is an object of the present invention to provide a multi-functional IOT-operated air purifier having an antimicrobial function and removing fine dust attached to an object while simultaneously purifying indoor air while removing fine dust and bacteria attached to various items.

According to a preferred embodiment of the present invention, the air purifier of the multi-function IOT operation type having fine dust removal and antimicrobial function attached to the article includes at least one air inflow unit having a space in which the article is mounted; Sterilizing means for emitting light or sound waves for sterilizing the air inlet unit; A filter unit disposed under the sterilizing means; And a plasma cluster module that generates a plasma cluster from air that has passed through the filter unit.

According to another suitable embodiment of the present invention, the plasma cluster module includes a particulate nozzle for moisture control.

According to another suitable embodiment of the present invention, an object sensor for detecting an object located in the room and initiating the operation is included.

The multi-functional IOT-operated air purifier with fine dust removal and antimicrobial function according to the present invention removes fine dust attached to clothes, bags, or similar portable items, and enables sterilization of such items. Thereby, it is prevented that fine dust or bacteria caused by the inflow of the article into the room after going out is prevented. In addition, the air purifier according to the present invention may have an air purifying function that detects the condition of the indoor air and circulates the indoor air to purify the air.

Figure 1 shows an embodiment of the air purifier of the multi-function IOT operation method having an antimicrobial function and removal of fine dust attached to the article according to the present invention.
Figure 2 shows an embodiment of a plasma generating module applied to the air purifier according to the present invention.
Figure 3 shows an embodiment of the operation process of the air purifier according to the present invention.

The present invention will be described in detail below with reference to the embodiments presented in the accompanying drawings, but the embodiments are intended for a clear understanding of the present invention and the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, and are not described repeatedly unless necessary for understanding of the invention, and well-known components are briefly described or omitted, but the present invention It should not be understood as being excluded from the embodiment.

Figure 1 shows an embodiment of an air purifier of a multi-function IOT operation method having a fine dust removal and antibacterial function attached to the article according to the present invention.

Referring to Figure 1, the air purifier of the multi-functional IOT operation method having a fine dust removal and antimicrobial function attached to the article has at least one air inlet unit (12a, 12b) is formed a space in which the article is mounted; Sterilizing means (13) for emitting light for sterilizing the air inlet units (12a, 12b); A filter unit 14 disposed under the sterilizing means; And a plasma cluster module 15 that generates a plasma cluster from air that has passed through the filter unit 14.

The air purifier of the multi-function IOT operation method may have a function of sterilizing such items while removing fine dust attached to clothes, bags, electronic devices, or the like. At the same time, the air purifier may have a function of detecting indoor air condition and purifying the indoor air. The air purifier may have a square box shape or a similar shape, and the air inlet units 12a, 12b may be formed in the upper portion or other suitable location. A mounting space for mounting an article may be formed in the air inflow units 12a and 12b. For example, two box-shaped mounting spaces may be formed in the upper portion of the housing 11 having a square box shape, and the mounting space may have functions of the air inflow units 12a and 12b. Alternatively, an input door that can be opened and closed may be installed at the front of the mounting space, and an article may be input to the mounting space through the input door. Fixing means (121, 122) such as a hanger or a shelf for fixing the article in the mounting space may be arranged. Light or sound waves may be emitted by the sterilizing means 13 such as an ultraviolet lamp or an ultrasonic generator as a mounting space. Detection sensors 123a, 123b, such as an optical sensor, are installed in the sterilizing means 13 to detect whether the article is mounted in the mounting space. When an article is detected by the detection sensors 123a and 123b, light or sound waves for sterilization may be emitted from the sterilizing means 13. The sterilizing means 13 can be operated for a predetermined period of time, for example 10 to 200 seconds, but is not limited thereto. The inflow of air through the air inflow units 12a, 12b may be achieved by a fan P operated by a driving means such as a motor. The external air introduced through the air inflow units 12a and 12b may capture fine dust or bacteria attached to the article and flow through the filter unit 14. The filter unit 14 may include a nonwoven filter, an activated carbon filter, or a similar filter, and at least one filter may be arranged in a layer structure. Air through which the filter unit 14 has been removed from dust or similar contaminants may be directed to the plasma cluster module 15. In the plasma cluster module 15, part of the filtered air may be made in the form of plasma or ions. In addition, the humidity of the air containing ions or plasma may be controlled to be guided to the discharge slits 16a and 16b. The discharge slits 16a, 16b may be formed under the housing 11, and may be formed in a band shape on the front side of the housing 11 or may be formed in a band shape on the side surface of the housing 11. A porous zeolite filter and a hepa filter may be disposed in the discharge slits 16a, 16b, a portion of moisture is captured by the porous zeolite filter, and fine dust having an average diameter of, for example, 10 to 2.5 μm by the hepa filter Can be removed. Status detection units 171, 172 may be disposed above and below the housing 11, and the status detection units 171, 172 may include, for example, particle detection sensors, carbon dioxide detection sensors, odor detection sensors, or similar detection It can be strong. The air purifier may be operated regardless of whether an article is mounted in the mounting space according to the state of the indoor air detected by the condition detection units 171 and 172. For example, when particles above a certain level are detected in the indoor air by the state detection units 171 and 172, the operation of the air purifier may be started. The indoor air may be purified by the operation of the air purifier, and the indoor air level may be periodically detected by the condition detection units 171 and 172. Then, based on the information transmitted by the state detection units 171 and 172, the control module may stop the operation of the air cleaner. The air cleaner may include various types of filters, and may include a plasma cluster module 15 having various structures.

Figure 2 shows an embodiment of a plasma generating module applied to the air purifier according to the present invention.

Referring to FIG. 2, the plasma cluster module 15 includes a particulate nozzle 26 for moisture control. The filtered air passing through the filter unit may be led to the plasma generator through the induction unit 23. The plasma generator may include a discharge module 24 and an induction electrode module 25 separated from each other. The discharge module 24 includes a fixed block 241 made of an insulator material; A discharge electrode 242 coupled to one side of the fixed block 241; And a plurality of discharge needles 243_1 to 243_N extending in a needle shape from the discharge electrode 242. The induction electrode module 25 positioned separately from the discharge module 25 includes a separation block 251 made of an insulator material; An induction electrode 252 disposed inside the separation block 251; And one end is coupled to the induction electrode 252, the other end may be made of electrode pieces (253_1 to 253_K) protruding to the outside of the separation block (251). The power source 21 may be connected to the discharge electrode 242 and the induction electrode 252, respectively, and the pulse generator 22 may be connected between the power source 21 and the discharge electrode 242. Air may be induced between the discharge module 24 and the induction electrode module 25, and a pulsed voltage may be periodically applied to the discharge electrode 24 by the pulse generator 22. Accordingly, a part of the air may be in the form of plasma or ions, and may be guided to the particulate nozzle 26.

The fine particle nozzle 26 may have a function of collecting particulates or bacteria including fine dust as ion clusters or plasma clusters are generated by spraying water in the form of particulates to the filtered air that has passed through the plasma generator. In addition, the particulate nozzle 26 increases the humidity of the air so that it can be easily collected in a zeolite filter or hepa filter installed in the process of discharging to fine dust or bacteria. The particulate nozzle 26 may include an ultrasonic unit that turns water into particulate form. The air whose humidity is controlled while being formed in a cluster shape by the particulate nozzle 26 may be guided to the discharge unit through the induction path 27. The cluster detection unit 281 may be installed in the guidance path 27, and the state of air passing through the guidance path 27 may be detected by the cluster detection unit 281. For example, the charge amount, temperature, or humidity of air passing through the induction path 27 may be detected by the cluster detection unit 281, and information detected by the cluster detection unit 281 may be used to control the nozzle control unit 261. Can be sent to The nozzle control unit 261 may adjust the injection pressure of the particulate nozzle 26 based on information transmitted from the cluster detection unit 281. The plasma generator or particulate nozzle 26 can be made of a variety of structures and is not limited to the practice presented.

Figure 3 shows an embodiment of the operation process of the air purifier according to the present invention.

Referring to FIG. 3, the air purifier includes an object sensor 322 that detects an object located in the room and initiates operation. The entire operation of the air purifier can be controlled by the control module 31, and the control module 31 determines whether the air purifier is operating based on information transmitted from the dust sensor 321 detecting the dust level from the indoor air. Can decide. Alternatively, an object sensor 322 is installed to detect a person or an animal entering or leaving the room, and when the object or animal enters the room, the control module 31 may start the operation of the air cleaner. The object sensor 322 may be an ultrasonic sensor or a laser sensor, but is not limited thereto. The air purifier can be operated in conjunction with various IOT sensors installed indoors. For example, it may be operated in conjunction with an IOT sensor related to the operation of a device for indoor temperature or humidity control or an indoor kitchen device. For example, when the operation of the kitchen appliance is detected, the control module 31 may receive operation information from the IOT sensor installed in the kitchen appliance to determine whether the air cleaner is operating. It can be operated in conjunction with various environmental sensors 331 and is not limited to the presented embodiment. The control module 31 may also receive information about the operating state of the circulation facility, such as an air conditioner or a fan, from a sensor installed in the air conditioning facility to determine the operating level of the air purifier. The circulation level and the plasma generation level may be respectively set by the circulation setting unit 341 and the plasma setting unit 342 based on the information received by the control module 31. And based on this, the operation data is generated by the operation data unit 35 so that the circulation fan 36 and the plasma generation module 15 can be operated. The operation data unit 35 may receive information about the cluster generation level with the cluster detection unit 261, and modify the operation data to an appropriate level based on the received information. The air purifier can be operated in a variety of ways and is not limited to the presented embodiment.

The multi-functional IOT-operated air purifier with fine dust removal and antimicrobial function according to the present invention removes fine dust attached to clothes, bags, or similar portable items, and enables sterilization of such items. Thereby, it is prevented that fine dust or bacteria caused by the inflow of the article into the room after going out is prevented. In addition, the air purifier according to the present invention may have an air purifying function that detects the condition of the indoor air and circulates the indoor air to purify the air.

The present invention has been described in detail with reference to the presented embodiments, but those skilled in the art will be able to make various modifications and modified inventions without departing from the technical spirit of the present invention with reference to the presented embodiments. . The present invention is not limited by such modified and modified inventions, but is limited by the appended claims.

11: housing 12a, 12b: air intake unit
13: Sterilization means `14: Filter unit
15: plasma cluster modules 16a, 16b: discharge slits
21: power 22: pulse generator
24: discharge module 25: induction electrode module
26: particulate nozzle 27: induction path
31: control module 35: operation data unit
36: circulation fan
121, 122: promontory means 123a, 123b: detection sensor
171, 172: condition detection unit 322: object sensor

Claims (3)

At least one air inflow unit (12a, 12b) having a space in which the article is mounted;
Sterilization means (13) for emitting light or sound waves for sterilization of external air introduced through the air inlet units (12a, 12b);
A filter unit 14 disposed under the sterilizing means; And
Plasma cluster module 15 for generating a plasma cluster from the air that has passed through the filter unit 14,
The object sensor 322 that detects people or animals entering or leaving the room where the air purifier is located, the dust sensor 321 that detects the level of dust from the indoor air, and sensors installed in the air conditioning system receive information from the sensor to start operation, or Further comprising a control module 31 for determining the operating level,
The plasma cluster module 15 includes a discharge module 24 and an induction electrode module 25 separated from each other, and the discharge module 24 includes a fixed block 241 made of an insulator material; A discharge electrode 242 coupled to one side of the fixed block 241; And a plurality of discharge needles 243_1 to 243_N extending in a needle shape from the discharge electrode 242, and the induction electrode module 25 includes an insulating material separation block 251; An induction electrode 252 disposed inside the separation block 251; And one end is coupled to the induction electrode 252, the other end is made of electrode pieces (253_1 to 253_K) protruding to the outside of the separation block 251,
A particulate nozzle 26 for spraying particulate water into the filtered air that has passed through the plasma cluster module 15, and an induction path for discharging the air whose humidity is controlled while being formed in a cluster form by the particulate nozzle 26 ( The cluster detection unit 281 installed on 27), and a fine dust with an article further comprising a nozzle control unit 261 that adjusts the injection pressure of the particulate nozzle 26 according to the information detected by the cluster detection unit 281. Multifunctional IOT operated air purifier with removal and antibacterial function. delete delete

Images