WO2018106036A2 - Air sterilizing purifier and control method thereof - Google Patents

Abstract

An embodiment of the present invention comprises: an environmental information detecting unit for detecting environmental conditions of a target space and size information of the target space; a control unit configured to analyze the environmental conditions and the size information of the space detected by the environmental information detecting unit so as to retrieve control information of at least one of a wavelength range of a predetermined light, a light intensity, a irradiation time of the light, and an air volume, and output a control signal of the wavelength range of the light, the light intensity, the irradiation time of the light, and the air volume according to the retrieved control information; a light source unit for outputting sterilizing light according to the control signal outputted from the control unit; and an air purifying unit for controlling the operation of an air purifying fan according to the control signal outputted from the control unit.

Description

Sterilization Air Purifier and Control Method

The present invention relates to a sterilizing air purifying apparatus and a control method, and more particularly, it is possible to provide an optimal sterilizing effect and an air purifying effect by adjusting sterilizing and air purifying conditions according to the ambient environmental conditions and the size of the sterilizing space. It relates to a sterile air purifier and a control method.

In general, sterilization systems are designed to administer a sterilization medium to a surface or object to remove living microorganisms from the surface or object.

Applications of sterilization systems include, but are not limited to sterilization, disinfection of objects, and decontamination of spaces / areas.

Sterilization systems are used, for example, to sterilize surgical instruments, food, or pharmaceutical packaging.

Examples of the area / space contaminant purification system include those used for disinfecting various surfaces and objects inside a hospital room and used for agriculture, for example, for breeding or raising animals.

It is known that pathogenic microorganisms are prevalent in the environment and cause infection, and disinfection of areas / spaces is becoming increasingly important.

This is a particularly important problem because antibiotic-resistant bacteria are found in the environment and their treatment is becoming increasingly difficult.

The challenge with existing space / area contamination purification systems is to obtain a sterile medium that is efficiently applied to all surfaces to be disinfected.

In particular, many conventional space / area contamination purification systems have limitations on the number of disinfectants included in the system due to cost and size limitations.

In addition, the directivity of the sterilization medium in existing space / zone contamination purification systems is largely fixed, and as a result, conventional systems often release large amounts of sterilization medium to simultaneously disinfect a large number of surfaces in a space or area. It is configured to.

A problem with the spreading of bulk sterilization media is that parts of the room or surroundings may be overexposed to the sterilization media, which in turn wastes the sterilization medium and potentially wastes time and / or energy for disinfection.

Also, in some cases, spreading the sterilizing medium throughout the space will not reach a sufficient amount of the sterilizing medium in a portion within the space / area, in particular a surface relatively far from the disinfecting agent or a surface not in line with the disinfecting agent.

Inadequate exposure of the sterilization medium leaves an undesirable number of pathogenic microorganisms on the surface or object, which greatly increases the likelihood of infection of a person in contact with the surface.

Another problem with conventional space / zone contamination purification systems is that considerations and priorities of objects and surfaces within the space in which the disinfection treatment is performed are not determined, and consequently, disinfection treatment for the space / area is prior to the time allotted thereto. When finished, it remains possible that the object or surface in the space where the contamination is likely to be large has not been sufficiently disinfected.

In particular, disinfectants of space / area contamination purification systems are often disposed or installed near a central point in a space such that exposure of the sterilization medium from the disinfectant to the periphery of the space / area is nearly uniform across the space / area.

Likewise, where a system includes multiple sterilizers, it is often an effort to disinfect the entire space at a given disinfection treatment, evenly distributed throughout the space rather than near a particular object.

In addition, the disinfection source of the space / area pollution purification system may be located near an object or surface, such as a bed in a hospital room, but by placing the disinfection source near a specific object, a door considered to have a large amount of contamination There is a problem in that it does not adequately respond to the need for disinfection of other objects or surfaces in the space / area, such as a handle or light switch.

In order to solve this problem, the present invention provides a sterilizing air purifier and control method that can provide the optimum sterilization effect and air purification effect by adjusting the sterilization and air purification conditions according to the ambient environmental conditions and the size of the sterilization space. It aims to do it.

In order to achieve the above object, the present invention provides an environmental information detection unit for detecting environmental conditions of the target space and size information of the target space; Analyze the environmental conditions and the size information of the space detected by the environment information detection unit to retrieve at least one control information of a predetermined wavelength range, light amount, light irradiation time, air volume, and the light according to the retrieved control information A control unit for outputting a control signal of the wavelength range, the amount of light, the irradiation time of the light, and the amount of air; A light source unit outputting sterilizing light according to a control signal output from the control unit; And an air purifying unit controlling the operation of the air purifying fan according to the control signal output from the controller.

In addition, the sterilizing air purifying apparatus according to the invention is characterized in that it further comprises a data communication unit for transmitting the operating state and sterilization result information to a mobile terminal of a remote location.

In addition, the environmental information detection unit according to the invention dust sensor for detecting the dust concentration of the target space; An infrared sensor detecting a temperature of the target space and the presence or absence of a human body; And a distance sensor that detects distance information from the light source unit to detect the size of the target space.

In addition, the environmental information detection unit according to the invention is characterized in that it further comprises a CO2 sensor for detecting the CO2 concentration of the target space.

In addition, the control unit according to the present invention is an environmental analysis unit for analyzing the dust concentration, temperature, space size, CO2 concentration using dust information, temperature information, distance information, CO2 information of the target space detected by the environmental information detection unit; The control unit searches at least one control information among a wavelength range of light, light amount, light irradiation time, and air volume according to dust concentration, temperature, space size, and CO2 concentration analyzed by the environment analyzer in the database. A sterilization control unit for outputting a control signal of the wavelength range, light amount, light irradiation time, and air volume of the light according to control information; And a database storing the dust concentration, the temperature, the size of the space, the wavelength range of the light corresponding to the CO 2 concentration, the light quantity, the irradiation time of the light, and the air volume information.

In addition, the controller according to the present invention is characterized in that when the human body detection information is detected in the target space, the light source output from the light source unit is blocked.

In addition, the present invention comprises the steps of: a) detecting the environmental conditions of the target space and the size information of the target space in the environmental information detector; b) the control unit analyzing the detected environmental conditions of the target space and the size information of the target space and searching for control information including a wavelength range, a light quantity, a light irradiation time, and a wind volume of a corresponding light in a database; And c) outputting, by the control unit, control signals of the wavelength range, the light amount, the irradiation time, and the air volume of the light to the light source unit and the air purifying unit according to the retrieved control information, and storing the result information.

In addition, the method of controlling the sterilizing air purifying apparatus according to the present invention includes d) the control unit detects an environmental condition of the target space after performing the step c) through the environment information detecting unit and compares the preset sterilization judgment reference value. Doing; And e) if the detected environmental condition of the target space is less than or equal to the reference value for further sterilization determination, repeat step c), and if the environmental condition of the detected target space is equal to or greater than the reference value for further sterilization determination, perform the sterilization process. Terminating and storing the sterilization results in the database.

The control unit may further include transmitting a sterilization result to a preset mobile terminal.

In addition, the control unit according to the present invention is characterized in that the control to block the light source output from the light source unit when the human body detection information is detected in the target space in step c).

The present invention has the advantage of providing the optimum sterilization effect and air purification effect by adjusting the sterilization and air purification conditions according to the ambient environmental conditions and the size of the sterilization space.

1 is a perspective view showing a sterile air purifying apparatus according to the present invention.

Figure 2 is a block diagram showing the configuration of the sterilizing air purifier according to the present invention.

Figure 3 is a block diagram showing the configuration of the environmental information detection unit of the sterilizing air purifying apparatus according to the present invention.

Figure 4 is a block diagram showing the configuration of the control unit of the sterilizing air purifying apparatus according to the present invention.

5 is a flow chart showing a control process of the sterilizing air purifying apparatus according to the present invention.

Figure 6 is a flow chart showing a dust concentration control process of the sterilizing air purifying apparatus according to the present invention.

7 is a flow chart showing a human body detection process of the sterilizing air purifying apparatus according to the present invention.

8 is a flow chart showing a control process according to the peripheral distance information of the sterilizing air purifying apparatus according to the present invention.

9 is a flow chart showing a control process according to the CO2 concentration of the sterilizing air purifying apparatus according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the sterilizing air purifying apparatus and control method according to the present invention.

(Sterilization air filter)

1 is a perspective view showing a sterilizing air purifying apparatus according to the present invention, Figure 2 is a block diagram showing the configuration of the sterilizing air purifying apparatus according to the present invention, Figure 3 is an environmental information detection unit of the sterilizing air purifying apparatus according to the present invention 4 is a block diagram showing the configuration of the control unit of the sterilizing air purifying apparatus according to the present invention.

As shown in Figures 1 to 4, the sterilization air purifying apparatus 100 according to the present invention provides the optimum sterilization effect and air purification effect by adjusting the sterilization and air purification conditions according to the ambient environmental conditions and the size of the sterilization space. The environmental information detection unit 110, the control unit 120, the light source unit 130, the air purification unit 140, and the data communication unit 150 are configured to be able to do so.

The environmental information detection unit 110 is configured to detect environmental conditions of the sterilization target space and size information of the target space, and includes a dust sensor 111, an infrared sensor 112, a distance sensor 113, and a CO2 sensor. And 114.

The dust sensor 111 is configured to detect the dust concentration of the sterilization target space, and outputs light to the surroundings, and detects the surrounding dust concentration using the scattering information of the output light.

The infrared sensor 112 is configured to detect the temperature of the sterilization target space and the presence or absence of the human body, and detect temperature information by detecting infrared energy emitted from a subject.

In addition, the infrared sensor 112 detects the movement of the subject together with the detection of the infrared energy to detect the detection information of the person together in the process of outputting sterilization light.

The distance sensor 113 is configured to detect the distance information from the light source unit 130 to detect the size of the sterilization target space, and comprises an ultrasonic sensor, a radar sensor, a CCD sensor, and the like.

That is, when the distance sensor 113 is composed of an ultrasonic sensor or a lidar sensor, an ultrasonic signal, a laser signal, and the like are output to the surroundings, and the distance information is measured by using a time difference in which the output signal is reflected by the subject and incident.

In addition, when the distance sensor 113 is composed of a CCD sensor, a plurality of CCD sensors are installed, so that the distance information can be measured by using a stereo imaging processing process for the image of the surrounding space photographed by the plurality of CCD sensors. do.

The CO2 sensor 114 is a component for detecting the CO2 concentration of the sterilization target space, and detects CO2 concentration information according to a fire caused by deterioration of a subject due to heat generated from the light source unit 130.

The controller 120 analyzes the environmental conditions and the size information of the space detected by the environmental information detector 110 to retrieve at least one control information among a preset wavelength range, light amount, light irradiation time, and air volume, The environmental analyzer 121, the sterilization controller 122, and the database 123 are configured to output control signals of the wavelength range, the light amount, the light irradiation time, and the air volume of the light according to the retrieved control information. It is configured to include.

The environmental analyzer 121 detects dust concentration, temperature, whether the human body is detected, and the space by using dust information, temperature information, human body detection information, distance information, and CO2 information of the target space detected by the environmental information detection unit 110. Size and CO2 concentration are analyzed, and the analyzed result is converted into numerical information of a predetermined size and output.

That is, the environmental analyzer 121 calculates the dust concentration according to the dust distribution of the target space using the light scattering value detected by the dust sensor 111, and calculates the dust concentration from the infrared temperature of the subject detected by the infrared sensor 112. Calculate the temperature of the space, calculate the size (volume) of the target space using the distance information to the subject detected by the distance sensor 113, and use the CO2 distribution value detected by the CO2 sensor 114 to target the space. Calculate the CO2 concentration of.

In addition, the environmental analyzer 121 outputs a human body detection signal when detecting the subject information moving by the infrared sensor 112.

In addition, when the environment analyzer 121 receives the image of the surrounding space photographed by the distance sensor 113 composed of the CCD sensor, the environment analyzer 121 may calculate the distance information from the spatial image acquired through the pre-stored stereo imaging program to the subject. It may be.

The sterilization control unit 122 calculates the dust concentration, the temperature, the size of the space, and the CO2 concentration value when the dust concentration, the temperature, the size of the space and the CO2 concentration value analyzed by the environmental analyzer 121 are calculated. In step 123, control information such as a wavelength range, light quantity, light irradiation time, and air volume of light is searched for in advance, and control of the wavelength range, light quantity, light irradiation time, air volume, and the like according to the retrieved control information. The signal is output for the sterilization process to be performed.

That is, the sterilization control unit 122 searches for control information corresponding to the dust concentration, the temperature, the size of the space, and the CO2 concentration value calculated by the environment analyzer 121, and according to the retrieved control information, the size of the target sterilization space is increased. If it is larger or smaller than the size of the preset space, the light amount of the light source unit 130 is controlled to be increased or decreased. If the dust concentration is higher or lower than the preset dust concentration, the light amount of the light source unit 130 is controlled. In this case, the irradiation (operation) time is controlled to be variable, and the wavelength range (eg, ultraviolet ray wavelength, visible ray, far infrared ray, etc.) of the sterilizing light output from the light source unit 130 can be adjusted.

In addition, the sterilization control unit 122 controls to increase the air volume of the air purification fan by the air purification unit 140 or increase the amount of light, irradiation time, etc. by the light source unit 130 according to the dust concentration, CO2 The output of the light source 130 is reduced according to the concentration.

In addition, the sterilization control unit 122 controls the light source output from the light source unit 130 to be blocked when the human body detecting information is detected in the space to be sterilized by the environment analyzer 121.

In addition, the sterilization control unit 122 stores control information in which the light amount of the light source unit 130, the irradiation time and the wavelength range of the sterilizing light, the air volume of the air purification unit 140, and the like are adjusted in the database 123. After the sterilization process is performed through the environmental information detector 110, the environmental conditions of the space to be sterilized are detected, and the sterilization process and the sterilization result are stored in the database 123.

In addition, the sterilization control unit 122 transmits the sterilization process and the sterilization result to a mobile terminal 200 that is set in advance, that is, a management terminal of a user connected through a wired or wireless network.

The database 123 stores the dust concentration, the temperature, the size of the space, the wavelength range of the light corresponding to the CO 2 concentration, the light amount, the irradiation time of the light, the air volume information, and the like.

In addition, the database 123 is matched to the stereo imaging program for measuring the distance information of the subject from the captured image, the concentration, temperature, space size, CO2 concentration value detected by the environmental information detector 110 Stores a matching program to retrieve information.

The light source unit 130 is a configuration for outputting sterilization light to the sterilization target space according to the control signal output from the control unit 120, a plurality of light output such as ultraviolet wavelength range, visible wavelength range, far infrared wavelength range, etc. A light source is installed and preferably consists of LEDs.

In addition, the light source unit 130 outputs light having a wavelength range of at least one of an ultraviolet wavelength range, a visible wavelength range, and a far infrared wavelength range according to the control information output from the sterilization controller 122 of the controller 120. According to the control information output from the sterilization control unit 122 of the control unit 120, the light amount of the output light increases or decreases, and the irradiation (operation) time of the light source unit 130 is varied and output.

The air purifier 140 is configured to perform air purification of a sterilization target space by turning on / off an air purifying fan according to a control signal output from the controller 120, and may be formed of a known air purifier. The air volume increases or decreases depending on the concentration.

The data communication unit 150 is connected to a management terminal of a user located in a remote place through a wired network or a wireless network, and transmits the operation state and sterilization result information of the sterilization air purifier 100.

(Control method)

5 is a flow chart showing a control process of the sterilizing air purifying apparatus according to the present invention, Figure 6 is a flow chart showing a dust concentration control process of the sterilizing air purifying apparatus according to the present invention, Figure 7 is a sterilizing air purification according to the present invention 8 is a flowchart illustrating a human body detecting process of the apparatus, and FIG. 8 is a flowchart illustrating a control process according to peripheral distance information of the sterilizing air purifying apparatus according to the present invention, and FIG. Flow chart showing the control process.

1 to 9, the environmental information detection unit 110 detects environmental conditions of the sterilization target space and size information of the target space (S100).

The control unit 120 analyzes the detected environmental conditions of the sterilization target space and the size information of the target space, and includes control information including a wavelength range, a light amount, a light irradiation time, and a wind volume of the light corresponding to the analyzed information. Search in the database 123 (S200).

Referring to step S200 in more detail, the control unit 120 detects the dust concentration through the dust sensor 111 (S210), and compares the detected dust concentration with a preset air purification determination reference concentration (S211). do.

As a result of the comparison of the step S211, if the detected dust concentration is equal to or greater than the reference concentration, the air purification condition corresponding to the detected dust concentration is searched in the database 123 (S212), and the light source unit 130 according to the searched condition The control information including the light quantity, the wavelength range, the irradiation time, the air volume of the air purification unit 140, the operating time, and the like is output (S213).

In addition, in step S200, the controller 120 determines whether human body detection information is detected in the sterilization target space through the infrared sensor 112 (S220 and S221), and when the human body detection information is detected, the output of the light source unit 130 is turned off. If the human body sensing information is not detected, the control unit 222 controls the output of the light source unit 130 to be turned on or reduced.

In addition, in step S200, the control unit 120 detects distance information of the sterilization target space through the distance sensor 113 (S230), and based on the detected distance information on the currently set distance information and the set distance information. The light amount range of the light source unit 130 is checked (S231).

The controller 120 compares the distance information according to the light amount range identified in step S231 with the distance information detected in step S230 to determine whether the set range is S232.

As a result of the determination in step S232, if the detected distance information is not included in the range of the currently set distance information, the controller 120 adjusts the output of the light source unit 130 (S233), and the detected distance information is currently set. When included in the range of distance information, the controller 120 allows the output of the light source unit 130 to be maintained (S234).

In addition, in step S200, the control unit 120 detects the CO2 concentration of the sterilization target space through the CO2 sensor 114 (S240), and compares the detected CO2 concentration with a preset fire detection determination reference concentration (S241). do.

As a result of the comparison of step S241, if the detected CO2 concentration is greater than or equal to the reference concentration, the control unit 242 reduces or blocks the amount of light of the light source unit 130, and if the detected CO2 concentration is less than or equal to the reference concentration, the light source unit 130 The amount of light is controlled to be maintained (S243).

According to the control information retrieved in step S200, the control unit 120 outputs a control signal of the wavelength range, light amount, light irradiation time and air volume of the light to the light source unit 130 and the air purification unit 140 to perform sterilization operation. (S300).

The control unit 120 performs the sterilization operation of the step S300 through the environmental information detection unit 110, detects the environmental conditions of the sterilization target space, analyzes and stores the sterilization result information (S400), and stores the sterilization result information. It is compared with the preset additional sterilization determination reference value (S500).

As a result of the comparison of the step S500, if the detected environmental condition of the sterilization target space is equal to or less than the reference value for further sterilization determination, perform step S300 again. After the termination, the sterilization result is stored in the database 123 (S600), and the sterilization result is transmitted to the mobile terminal 200 of the preset user (S700).

Therefore, it is possible to provide the optimum sterilization effect and air purification effect by adjusting the sterilization and air purification conditions according to the environmental conditions and the size of the sterilization space.

As described above, it has been described with reference to a preferred embodiment of the present invention, but those skilled in the art various modifications and changes of the present invention without departing from the spirit and scope of the invention described in the claims below I can understand that you can.

In addition, in the course of describing an embodiment of the present invention, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description, and the above terms are considered in the present invention. As the terms defined herein may vary according to a user's or operator's intention or custom, interpretation of these terms should be made based on the contents throughout this specification.

Claims (10)

An environmental information detector for detecting environmental conditions of the target space and size information of the target space; Analyze the environmental conditions and the size information of the space detected by the environment information detection unit to retrieve at least one control information of a predetermined wavelength range, light amount, light irradiation time, air volume, and the light according to the retrieved control information A control unit for outputting a control signal of the wavelength range, the amount of light, the irradiation time of the light, and the amount of air; A light source unit outputting sterilizing light according to a control signal output from the control unit; And Sterilizing air purification apparatus including an air purifying unit for controlling the operation of the air purification fan according to the control signal output from the control unit. The method of claim 1, The sterilizing air purifier further comprises a data communication unit for transmitting the operation status and sterilization result information to a mobile terminal of a remote place. The method of claim 2, The environmental information detection unit includes a dust sensor for detecting the concentration of dust in the target space; An infrared sensor detecting a temperature of the target space and the presence or absence of a human body; And And a distance sensor that detects distance information from the light source unit to detect the size of the target space. The method of claim 3, wherein The environmental information detection unit further comprises a CO2 sensor for detecting the CO2 concentration of the target space. The method of claim 2, The controller may include: an environment analyzer configured to analyze dust concentration, temperature, space size, and CO2 concentration using dust information, temperature information, distance information, and CO2 information of the target space detected by the environmental information detector; The control unit searches at least one control information among a wavelength range of light, light amount, light irradiation time, and air volume according to dust concentration, temperature, space size, and CO2 concentration analyzed by the environment analyzer in the database. A sterilization control unit for outputting a control signal of the wavelength range, light amount, light irradiation time, and air volume of the light according to control information; And A sterilizing air purifier comprising a database storing the dust concentration, the temperature, the size of the space, the wavelength range of light, the amount of light, the irradiation time of the light, and the air volume information corresponding to the CO 2 concentration. The method of claim 5, wherein The control unit is a sterilizing air purifier, characterized in that the light source output from the light source unit is blocked when the human body detection information is detected in the target space. a) detecting, by the environment information detector, environmental conditions of the target space and size information of the target space; b) the control unit analyzing the detected environmental conditions of the target space and the size information of the target space and searching for control information including a wavelength range, a light quantity, a light irradiation time, and a wind volume of a corresponding light in a database; And c) controlling the sterilizing air purifier including outputting a control signal of a wavelength range, a light quantity, a light irradiation time and a wind volume of the light to the light source unit and the air purifying unit according to the retrieved control information and storing the result information; Way. The method of claim 7, wherein The control method of the sterilizing air purifier d) detecting, by the controller, the environmental condition of the target space after performing the step c) through the environment information detector, and comparing the preset sterilization determination reference value; And e) If the result of the comparison indicates that the detected environmental condition of the target space is less than or equal to the standard for further sterilization determination, the step c) is executed again. And storing the sterilization result in a database. The method of claim 8, The control unit further comprises the step of transmitting a sterilization result to a predetermined mobile terminal control method of the sterilizing air purifier. The method of claim 9, The control unit controls the sterilizing air purifier, characterized in that if the human body detection information is detected in the target space in step c) to block the light source output from the light source unit.

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