KR102396114B1 - Apparatus and Method of Filtering Air and Being Intelligently Driven Based on Pollution Condition Information of Air - Google Patents

Abstract

An air filtration apparatus intelligently driven based on air pollution state information according to an embodiment of the present invention includes a sensing unit that detects air pollution state and generates information on air pollution state, and A control unit that generates and transmits a signal for controlling the driving of the air filtration device based on the received air pollution state information, and a filtration unit that is driven based on the driving control signal received from the control unit and filters the air, and the filtration unit includes: , a filter that removes foreign substances contained in the air as the air containing foreign substances passes through, an exhaust fan that is located upstream of the air flow with respect to the filter and controls the amount of air exhausted through the filter, and an air supply fan positioned downstream of the air flow to control the amount of air supplied from the filter; An outdoor air introduction unit for sucking outside air from the outside as much as the exhaust discharged to the outside and including it in the exhaust is further installed.

Description

Apparatus and Method of Filtering Air and Being Intelligently Driven Based on Pollution Condition Information of Air

The present invention relates to an air filtering device and method, and more particularly, to an air filtering device and method intelligently driven based on air pollution state information.

In general, air filtration devices are installed in railway stations, subway stations, underpasses, tunnels, schools, hospitals, department stores, plants, etc. .

These air filtering devices are generally manually operated by the user. That is, when the user operates the drive switch of the air filtration device to purify the air, the air filtration device removes the dust or foreign substances contained in the air by passing the air containing the dust or foreign substances through a filtering means such as a filter. and provide clean air.

However, since it is generally difficult for the user to know exactly how the air is polluted, even though the air contains dust or foreign substances, the user does not feel it, and thus does not operate the air filter at all or does not operate the air filter sufficiently. cannot be efficiently purified. In addition, when the air filtering device cannot be operated due to the absence of a user, the air filtering device cannot be operated at all even though the air contains dust or foreign substances, thereby making it impossible to purify the air. Furthermore, the operation of the air filtering device may not be terminated because the user does not realize that the air filtering device does not need to be operated any more, even when the air does not contain dust or foreign substances, as the air filtering device is sufficiently operated. , resulting in power loss or noise generation due to the operation of the air filtering device may continue.

In order to solve this problem, it is possible to operate and terminate the air filtering device according to a predetermined time by using a timer, which is a device that generates a signal according to a predetermined time. When the air filter is not included in the specified time, the air filtering device does not operate at all, and even though the air does not contain dust or foreign substances, there is a problem in that the air filtering device operates during the predetermined time.

Therefore, if the air contains dust or foreign substances, the air filtering device intelligently starts operation even if the user does not manually start the operation or the timer is not running to remove the dust or foreign substances in the air to remove the air. An air filtering device that can purify the air and stop the air purification by intelligently shutting down the air filter even if the user does not manually terminate the operation or the timer runs if the air does not contain dust or foreign matter i need a way

Through this, it is necessary to remove contaminants such as dust or foreign substances such as ultrafine dust contained in the air and supply clean air to people so that they can lead a healthy life in terms of public health and health environment.

One problem to be solved by the present invention is an air filtration apparatus and method for intelligently driving based on air pollution state information, which can significantly improve air filtration efficiency by intelligently controlling the operation based on air pollution state information is to provide

Another problem to be solved by the present invention is air filtration intelligently driven based on air pollution state information, which can significantly improve air filtration efficiency by intelligently controlling the start or end of driving based on air pollution state information To provide an apparatus and method.

Another problem to be solved by the present invention is an air filtration device intelligently driven based on air pollution state information, which can significantly improve air filtration efficiency by intelligently controlling a driving time based on air pollution state information, and to provide a way

The problem to be solved by the present invention is not limited to the problems mentioned above, and another problem that is not mentioned will be clearly understood by those skilled in the art from the following description.

An air filtration apparatus intelligently driven based on air pollution state information according to an embodiment of the present invention includes a sensing unit that detects air pollution state and generates information on air pollution state, and A control unit that generates and transmits a signal for controlling the driving of the air filtration device based on the received air pollution state information, and a filtration unit that is driven based on the driving control signal received from the control unit and filters the air, and the filtration unit includes: , a filter that removes foreign substances contained in the air as the air containing foreign substances passes through, an exhaust fan that is located upstream of the air flow with respect to the filter and controls the amount of air exhausted through the filter, and an air supply fan positioned downstream of the air flow to control the amount of air supplied from the filter; An external air inlet unit for sucking in external air as much as the exhaust discharged to the outside and including it in the exhaust is further installed, and the sensing unit is arranged in the exhaust duct through which exhaust containing foreign substances is introduced into the exhaust fan, and foreign substances contained in the exhaust A first sensing unit for detecting the concentration value of the second sensing unit arranged in the outdoor air duct through which outside air is introduced into the outside air inlet to detect the concentration value of foreign substances contained in the outside air; is arranged in the front part of the filter into which exhaust air and outside air are mixed and includes a third sensing unit configured to detect a concentration value of foreign substances included in the air mixed with the exhaust and outside air, and the control unit includes the air in which the exhaust air and the outside air are mixed, which are received from the third sensing unit. When the concentration value of the foreign material contained in the air conditioner is the same as the set value or exceeds the set value for a certain period of time, a driving start signal of at least one of the exhaust fan or the air supply fan is generated, and the exhaust and outdoor air received from the third sensing unit are generated. When the concentration value of the foreign matter contained in the mixed air is less than the set value for a certain period of time, a driving end signal is generated for the exhaust fan and the supply fan, and the filter unit, same as the set value for the time or B. Upon receiving a start signal for driving at least one of the exhaust fan or the supply fan, which is generated as a result of exceeding the set value, the operation of at least one of the exhaust fan or the supply fan is started, and foreign substances in the air mixed with the exhaust and outside air from the control unit When a driving end signal of the exhaust fan and the supply air fan generated when the concentration value is less than the set value for a predetermined time is received, the operation of the exhaust fan and the air supply fan is terminated.

In the present embodiment, the air pollution state information generated by the sensing unit may include a measurement value regarding the concentration of dust or foreign matter contained in the air.

In this embodiment, the sensing unit may be arranged in a path through which air moves.

In this embodiment, the driving control signal generated by the control unit may include a signal for starting or terminating the driving of the air filtering device.

In the present embodiment, the driving start signal of the control unit may be generated when the measured value related to the air pollution state information is the same as the set value for a predetermined time or exceeds the set value.

In this embodiment, the driving end signal of the control unit may be generated when the measured value related to the air pollution state information is less than a set value for a predetermined time.

In this embodiment, the driving control signal generated by the control unit may include a signal relating to the time to drive the air filtering device.

In this embodiment, the driving time signal of the control unit may be to continuously drive the filtering unit for a set time.

In this embodiment, the filtering unit may be to start or end the driving when the driving control signal received from the control unit is a signal to start or end the driving of the air filtering device.

In this embodiment, when the driving control signal received from the control unit is a signal relating to the time to drive the air filtering device, the filter unit may be continuously driven for a set time.

In this embodiment, the user may be to further include a manipulation unit for operating the driving mode of the air filtering device.

In the present embodiment, the operation unit may be to select an automatic mode in which the air filtering device is intelligently driven without a user's operation or a manual mode in which the air filtering device is manually operated by a user's operation .

In this embodiment, when the manual mode is selected, whether each engine of the filtering unit is driven and the driving time may be further selected.

In this embodiment, it may further include a display unit for displaying the driving state of the air filtering device.

An air filtration method intelligently driven based on air pollution state information according to another embodiment of the present invention includes the steps of detecting an air pollution state and generating information about the air state; Generating a signal for controlling the driving of the air filtering device based on the state information, and filtering the air based on the generated driving control signal, the step of filtering the air is made by the filtering unit, The filtration unit includes a filter for removing foreign substances contained in the air as the air containing the foreign substances passes, an exhaust fan located upstream of the air flow with respect to the filter to control the amount of air exhausted to the filter, and a filter. An air supply fan positioned downstream of the air flow as a reference to control the amount of air supplied from the filter is provided, and between the exhaust fan and the filter, a portion of the exhaust containing foreign substances exhausted by the exhaust fan is discharged to the outside. An exhaust discharge unit and an outside air introduction unit for sucking outside air from the outside as much as the exhaust discharged to the outside and including it in the exhaust are further installed, and the sensing unit is arranged in the exhaust duct through which the exhaust containing foreign substances is introduced into the exhaust fan and included in the exhaust A first sensing unit for detecting the concentration value of the foreign material, a second sensing unit arranged in the outdoor air duct through which outside air is introduced into the outside air inlet to detect the concentration value of the foreign material contained in the outside air, and the exhaust and outside air are mixed with a filter and a third sensing unit arranged at the front of the filter through which the filtered air is introduced and sensing a concentration value of foreign substances contained in the air mixed with the exhaust and the outside air, and the control unit, the exhaust and the outside air received from the third sensing unit are mixed When the concentration value of foreign substances contained in the air is equal to or exceeds the set value for a certain period of time, a driving start signal of at least one of the exhaust fan or the supply fan is generated, and the When the concentration value of foreign substances contained in the air mixed with outdoor air is less than the set value for a certain period of time, a driving end signal of the exhaust fan and the supply fan is generated, and the filter unit, During this period of time, the set value remains the same as or when a driving start signal of at least one of the exhaust fan or the supply fan is received, which is generated by exceeding the set value or When a driving end signal of the exhaust fan and the supply air fan generated when the concentration value is less than the set value for a predetermined time is received, the operation of the exhaust fan and the air supply fan is terminated.

One effect of the present invention is to provide an air filtering device and method intelligently driven based on air pollution condition information, which can significantly improve air filtration efficiency by intelligently controlling the operation based on air pollution condition information. it can be

Another effect of the present invention is an air filtration device intelligently driven based on air pollution state information, which can significantly improve air filtration efficiency by intelligently controlling the start or end of driving based on air pollution state information and methods may be provided.

Another effect of the present invention is an air filtration apparatus and method for intelligently driving based on air pollution state information, which can significantly improve air filtration efficiency by intelligently controlling a driving time based on air pollution state information will be able to provide

Effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a diagram showing a block diagram of an air filtering device intelligently driven based on air pollution state information according to an embodiment of the present invention.
2 is a diagram schematically illustrating an air filtering device intelligently driven based on air pollution state information according to an embodiment of the present invention.
3 is a diagram schematically illustrating an automated surface of an operation unit of an air filtering device that is intelligently driven based on air pollution state information according to an embodiment of the present invention.
4 is a diagram schematically illustrating a manual screen of an operation unit of an air filtering device that is intelligently driven based on air pollution state information according to an embodiment of the present invention.
5 is a diagram schematically showing a weekly time setting screen of an operation unit of an air filtering device that is intelligently driven based on air pollution state information according to an embodiment of the present invention.
6 is a diagram schematically illustrating a graph of an operation unit of an air filtering device intelligently driven based on air pollution state information according to an embodiment of the present invention.
7 is a flowchart schematically illustrating an air filtering method intelligently driven based on air pollution state information according to another embodiment of the present invention.

Specific contents for carrying out the invention will be described based on examples. These embodiments are provided by way of example so that those of ordinary skill in the art to which the invention pertains can understand the specific content for carrying out the invention and may be modified in various other forms, so that the scope of the present invention is not It is not limited by the following examples.

(Example 1)

As shown in FIG. 1 by way of example, the air filtering device 100 intelligently driven based on the air pollution state information according to an embodiment of the present invention is a sensing unit 110 and a control unit 120 . and a filtering unit 130 . Furthermore, the air filtering device 100 according to the present embodiment may further include a manipulation unit 140 , a memory unit 150 , or a display unit 160 .

The sensing unit 110 detects the air pollution state and generates information about the air pollution state. According to the air pollution state information of the sensing unit 110, the air filtering device 100 can intelligently control the operation based on the air pollution state information, thereby greatly improving the air filtration efficiency.

The air pollution state information generated by the sensing unit 110 may be various information regarding the air pollution state. For example, the air pollution state information generated by the sensing unit 110 may include a measurement value related to the concentration of dust or foreign matter contained in the air. Here, the dust whose concentration is measured may be PM10 corresponding to fine dust having a particle diameter of 10 μm or less or PM2.5 corresponding to ultrafine dust having a particle diameter of 2.5 μm or less. In addition, the sensing unit 110 may generate information indicating what kind of physical state the air is in, including the size of dust or foreign substances contained in the air, the temperature or humidity of the air, and the like.

The sensing unit 110 may be a sensor that detects an air pollution state. These sensors include a concentration sensor that detects the concentration of dust or foreign substances in the air, a size sensor that detects the size of particles of dust or foreign substances in the air, and a temperature and humidity sensor that detects the temperature or humidity of the air. can Here, the dust measured by the concentration sensor or the size sensor may be PM10 corresponding to fine dust having a particle diameter of 10 μm or less or PM2.5 corresponding to ultrafine dust having a particle diameter of 2.5 μm or less.

Various sensors suitable for the purpose may be employed as the sensor. For example, as the sensor adopts an infrared sensor (IR sensor), it is possible to increase sensitivity or accuracy compared to a conventional ultraviolet sensor by intelligently or by reading an infrared change generated from the outside. Even ultra-fine dust with a particle diameter of 0.3 μm can be detected by such an IR sensor.

The sensing unit 110 may be arranged in various positions capable of detecting the air pollution state. For example, the sensing unit 110 may be arranged on a path through which air moves, in particular, at a position where air containing dust or foreign matter is introduced in the filter unit 130 , whereby it is possible to accurately detect the pollution state of the air. can Furthermore, the sensing unit 110 is preferably arranged at a position not affected by other members in detecting the air pollution state.

The sensing unit 110 may transmit the generated air pollution state information to another member, for example, the control unit 120 by various methods. For example, the sensing unit 110 may transmit the generated air pollution state information to the control unit 120 in real time through wired or wireless communication. In addition, the sensing unit 110 may transmit the generated air pollution state information to the operation manager of the air filtering device 100 in real time through wired or wireless communication.

The control unit 120 generates and transmits a signal for controlling the operation of the air filtering device 100 based on the air pollution state information received from the sensing unit 110 . According to the driving control signal of the control unit 120, the air filtering device 100 intelligently controls the operation based on the air pollution state information, thereby greatly improving the air filtering efficiency.

The control unit 120 may be arranged in various positions to generate and transmit a signal for controlling the operation of the air filtering device 100 based on the air pollution state information received from the sensing unit 110 . For example, the control unit 120 may be arranged on a path for receiving air pollution state information from the sensing unit 110 or a path for transmitting a driving control signal to the filtering unit 130 .

The control unit 120 may generate various driving control signals based on the air pollution state information received from the sensing unit 110 .

For example, the driving control signal generated by the controller 120 may include a signal for starting or terminating the driving of the air filtering device 100 . According to the driving start or end signal of the control unit 120 , the air filtering device 100 intelligently controls the start or end of the driving based on the air pollution state information, thereby greatly improving the air filtration efficiency.

The driving start signal of the controller 120 may be generated when the measured value related to the air pollution state information is equal to or exceeds the set value for a certain period of time. For example, the driving start signal of the controller 120 may be generated when dust having a particle diameter equal to or exceeding 0.3 μm is detected in the air of the target space for 1 minute.

The driving end signal of the controller 120 may be generated when a measured value related to air pollution state information is less than a set value for a predetermined time. For example, the driving end signal of the controller 120 may be generated when no dust having a particle diameter equal to or exceeding 0.3 μm is detected in the air of the target space for 1 minute.

In addition, the driving control signal generated by the control unit 120 may include a signal relating to the driving time of the air filtering device 100 . According to the driving time signal of the controller 120 , the air filtering device 100 intelligently controls the driving time based on the air pollution state information, thereby greatly improving the air filtration efficiency.

The driving time signal of the control unit 120 may be to continuously drive the filtering unit 130 for a set time. For example, the driving time signal of the control unit 120 may be to continuously drive the filtering unit 130 for 1 hour. In this case, the driving time signal of the controller 120 may be generated regardless of the driving start signal or the driving end signal of the controller 120 . That is, the driving time signal of the control unit 120 may be generated even if the driving start signal of the control unit 120 is not generated, and the driving time signal of the control unit 120 may be continued even if the driving end signal of the control unit 120 is generated. .

Furthermore, the driving control signal generated by the controller 120 may include a signal relating to the strength of driving the air filtering device 100 . According to the driving strength signal of the control unit 120 , the air filtering device 100 intelligently controls the driving strength based on the air pollution state information, thereby greatly improving the air filtration efficiency.

The driving strength signal of the control unit 120 may be to continuously drive the filtering unit 130 at a set strength. For example, the driving strength signal of the control unit 120 may be a signal for continuously driving the supply fan or exhaust fan (which also has a circulation fan function) of the filtering unit 130 at a medium intensity, such as 3 out of 5 stages.

The control unit 120 may transmit the driving control signal to another member, for example, the filter unit 130 by various methods. For example, the control unit 120 may transmit the exhaust control signal to the exhaust fan 132 through wired or wireless communication in real time, and may transmit the supply air control signal to the air supply fan 133 through wired or wireless communication in real time. there is. In addition, the control unit 120 may transmit the driving control signal to the operation manager of the air filtering device 100 in real time through wired or wireless communication.

The filtering unit 130 is driven based on the driving control signal received from the control unit 120 to filter the air. The filtration unit 130 receives a driving control signal based on the air pollution state information from the controller 120 and is driven based on it, so it can efficiently filter the air suitable for the air pollution state, greatly increasing the air filtration efficiency. be able to improve

The filtering unit 130 may be arranged at various positions that are driven based on the driving control signal received from the control unit 120 to filter the air. For example, the filtering unit 130 may be arranged between a position where air containing dust, etc. is introduced and a position where the air filtered with dust, etc. is discharged.

The filtering unit 130 may be driven in various ways based on the driving control signal received from the control unit 120 to filter the polluted air.

For example, when the driving control signal received from the control unit 120 is a signal for starting or terminating the driving of the air filtering device 100 , the filter 130 may start or end the driving. By starting or ending the driving of the filtering unit 130, the air filtering device 100 intelligently starts or ends the driving based on the air contamination state information, thereby effectively starting or filtration of the air suitable for the contamination state of the air. It can be finished, so that it becomes possible to significantly improve the air filtration efficiency.

The driving start of the filtering unit 130 may occur when a driving start signal is received from the control unit 120 . For example, when the control unit 120 generates a driving start signal when dust having a particle diameter equal to or exceeding 0.3 μm is detected in the air of the target space for 1 minute, the filtering unit 130 may 120) may receive a driving start signal to start driving.

The driving end of the filtering unit 130 may occur when a driving end signal is received from the control unit 120 . For example, when the control unit 120 generates a driving end signal when dust having a particle diameter equal to or exceeding 0.3 μm is not detected in the air of the target space for 1 minute, the filtering unit 130 is configured to Driving may be terminated by receiving a driving end signal from 120 .

In addition, when the driving control signal received from the control unit 120 is a signal related to the driving time of the air filtering device 100 , the filtering unit 130 may be continuously driven for a set time. By continuously driving the filtering unit 130 for a set time, the air filtering device 100 intelligently continuously drives the air for a set time based on the air pollution state information, so that the air is efficiently suitable for the air pollution state. Since filtration can be continued, it becomes possible to significantly improve the air filtration efficiency.

Continuous driving of the filter unit 130 for a set time may occur when a driving time signal is received from the control unit 120 . For example, when the control unit 120 generates a signal for continuously driving the filtering unit 130 for 1 hour, the filtering unit 130 may receive such a driving signal from the control unit 120 and continuously drive the filtering unit 130 for 1 hour. there is.

Furthermore, when the driving control signal received from the control unit 120 is a signal related to the strength of driving the air filtering device 100 , the filter 130 may continue to drive with a set strength. By continuously driving the filter unit 130 according to the set intensity, the air filtering device 100 intelligently continuously drives the air filtration unit 100 at the set intensity based on the air pollution state information, so that the air is efficiently suitable for the pollution state of the air. Since filtration can be continued, it becomes possible to significantly improve the air filtration efficiency.

Continuous driving according to the set strength of the filtering unit 130 may occur when a driving strength signal is received from the control unit 120 . For example, when the control unit 120 generates a signal for continuously driving the air supply fan or exhaust fan of the filter unit 130 at a medium intensity such as 3 stages out of 5 stages, the control unit ( 120), the supply fan or exhaust fan can be continuously driven with a medium intensity, such as 3 out of 5 stages.

The filtering unit 130 may have various configurations for filtering air.

For example, as illustratively shown in FIG. 2 , the filter unit 130 may include a filter 131 , an exhaust fan 132 , an air supply fan 133 , and a housing 134 .

The filter 131 is a member that removes dust or foreign matter contained in the air while the air containing the dust or foreign matter passes, and a plurality of filters is preferably formed in multiple stages.

The exhaust fan 132 is located upstream of the airflow flow with respect to the filter 131 and is a member for controlling the amount of air exhausted to the filter 131 , and the supply fan 133 is an airflow based on the filter 131 . It is located downstream of the flow and is a member for controlling the amount of air supplied from the filter 131 .

Between the exhaust fan 132 and the filter 131, a part of the exhaust including dust exhausted by the exhaust fan 132, for example, an exhaust discharge part 132a for discharging 30% of the exhaust amount to the outside; An outdoor air introduction part 132b for sucking in outdoor air from the outside as much as the exhaust discharged to the outside and including it in the exhaust may be further installed. Accordingly, it is possible to include the external air sucked from the outside in the exhaust exhausted by the exhaust fan 132 .

On the other hand, as illustrated in FIG. 2 , the first detection unit 111 included in the detection unit 110 is arranged in the exhaust duct through which exhaust containing dust, etc. is introduced into the exhaust fan 132 , thereby exhausting the exhaust. It is possible to detect a concentration value of dust, etc. contained in the air duct, and the second sensing unit 112 included in the sensing unit 110 is arranged in the outdoor air duct through which the outside air is introduced into the outside air introduction unit 132b. It is possible to detect a concentration value, such as, and the third sensing unit 113 included in the sensing unit 110 is arranged on the front side of the filter 131 through which air mixed with exhaust and outside air is introduced into the filter 131 . It is possible to detect a concentration value of dust, etc. contained in air mixed with exhaust and outside air. Accordingly, each exhaust is exhausted according to the concentration values of dust included in each of the exhaust, outdoor air, and mixed air measured by the first detection unit 111 , the second detection unit 112 , and the third detection unit 113 , respectively. The fan 132, the outside air fan (not shown), and the supply fan 133 can be controlled, respectively.

Accordingly, the first sensing unit 111 may transmit the detected concentration value signal such as dust of the exhaust to the control unit 120 through wired or wireless communication in real time, and the second sensing unit 112 may transmit the detected outdoor air The concentration value signal of dust, etc. can be transmitted in real time to the control unit 120 through wired or wireless communication, and the third sensing unit 113 transmits the detected concentration value signal such as dust of mixed air to the control unit through wired or wireless communication. (120) can be transmitted in real time. In addition, the first, second, and third sensing units 111 , 112 , 113 may transmit each concentration value signal to the operation manager of the air filtering device 100 in real time by wired or wireless communication.

The exhaust fan 132 and the air supply fan 133 may control the air volume of the exhaust and the supply air based on a driving control signal received from the controller 120 independently of each other or in conjunction with each other. Here, the control of the exhaust fan 132 may include control of the exhaust discharge unit 132a or the outside air introduction unit 132b. For example, the exhaust fan 132 and the air supply fan 133 intelligently turn on/off the air volume based on a driving control signal according to a concentration measurement value of dust or foreign matter received from the control unit 120 or turn on/off the air volume. You can intelligently control the time and intensity of Accordingly, the filtering unit 130 intelligently starts or ends the operation based on the information on the pollution state of the air, maintains the air volume for a set time, or maintains the air volume at a set intensity to efficiently filter the air suitable for the pollution state of the air. The air filtration efficiency of the air filtering device 100 can be significantly improved by starting or ending the air filtration, maintaining the air volume for a set time, or maintaining the air volume at a set intensity.

The on/off of the air volume or the time and intensity of the air volume may be controlled by controlling the driving itself of the exhaust fan 132 or the air supply fan 133, but is not limited thereto, and the flow of air supply or exhaust is turned on/off. Alternatively, it may be driven by a supply air damper (not shown) or an exhaust damper (not shown) capable of adjusting the size of the supply or exhaust flow. For example, by controlling the exhaust damper installed in the duct through which the air supplied by the exhaust fan 132 is guided in a state where the driving speed of the exhaust fan 132 is kept constant, the flow of exhaust is turned on/off or the air volume of the exhaust is adjusted. Time and intensity can be adjusted. In addition, in a state where the driving speed of the supply fan 133 is kept constant, the flow of supply air is turned on/off by adjusting the supply damper installed in the duct through which the air supplied by the supply fan 133 is induced, or the flow of the supply air is reduced. Time and intensity can be adjusted.

The housing 134 is a member for fixing the filter 131 at a predetermined position by surrounding the filter 131 so that air containing dust or foreign substances passes through the filter 131 . In addition, the housing 134 may be configured to further surround the exhaust fan 132 and the air supply fan 133 . The housing 134 is formed with an air supply hole and an exhaust hole through which the supply air and exhaust pass.

In addition, the filtering unit 130 may further include an airflow diffusion fan (not shown). The airflow diffusion fan is located upstream or downstream of the airflow flow with respect to the filter 131 to control the diffusion of air exhausted to the filter 131 or air supplied from the filter 131 .

Meanwhile, the air filtering device 100 according to the present embodiment may further include a manipulation unit 140 . The operation unit 140 allows a user to operate a driving mode of the air filtering device 100 . The operation unit 140 may control a driving mode of the air filtering device 100 in various ways. For example, the user may select the automatic control operation or the manual control operation of the air filtering device 100 through the operation unit 140 , and, if necessary, may select the daytime operation.

The manipulation unit 140 may include, for example, a screen change button 141 as shown in FIG. 3 . The screen switching button 141 includes 'auto screen', 'manual screen', 'weekly time setting', 'graph', 'ALARM', and 'I/O CHECK' so that the user can select any one of them. has been In addition, the operation unit 140 includes a current date and time display unit 142 and a fine dust sensor value and a temperature value display unit 143 to display the current date and time, and a fine dust sensor value and temperature value, respectively.

When 'auto screen' is selected from the screen switching button 141, a screen for intelligently operating the air filtering device 100 appears. For example, when 'auto screen' is selected, the control mode selection unit 144 and the status display unit 145 of each fan may appear as illustrated in FIG. 3 for example. To select automatic control operation, first, select 'AUTO' in the control mode selector 144, and then select 'START'. When the automatic control operation is started, the operating states of the supply air fan, the exhaust fan, etc. are displayed on the state display unit 145 of each fan. During automatic control operation, if there is an abnormality in the operating state, a display indicating an abnormality, such as lighting of 'FAULT', may appear on the status display unit 145 of each fan. To stop the automatic control operation, select 'STOP' in the control mode selection unit 144 . When the automatic control operation is stopped, as illustrated in FIG. 3 , the operating state of each fan at the time of stopping is displayed on the status display unit 145 of each fan.

When 'manual screen' is selected from the screen switching button 141, a screen for manually controlling the air filtering device 100 appears. For example, when 'manual screen' is selected, the control mode selection unit 144 may appear as illustrated in FIG. 4 by way of example. In order to select manual control operation, first, 'MANUAL' is selected in the control mode selection unit 144 . Then, you can select 'OPEN' or 'CLOSE' of the supply fan damper and exhaust fan damper in the operation, stop, and airflow control unit 146 of each fan at the bottom of the screen, and supply air fan, exhaust fan, and airflow diffusion fan No. 1 , You can select 'START' or 'STOP' of airflow diffusion fan No.2. Furthermore, in the operation, stop, and airflow control unit 146 of each fan, 'air volume control' may be selected to control the respective airflow volumes of the supply air fan, the exhaust fan, the airflow diffusion fan No. 1, and the airflow diffusion fan No.2. The air volume control can be made in various ways, for example, any one of the air volume of each air supply fan, exhaust fan, air flow diffusion fan No. 1 and air flow diffusion fan No. 2 can be selected, and any one of steps 1 to 9 can be selected. By switching to the screen, the user can select the air volume control target and the number of stages, respectively, from among them. In this way, when the user manually adjusts the target and the number of stages for controlling the air volume, the air volume control display of each fan is displayed on the air volume control display unit 147 of each fan under the control mode selection unit 144 . During manual control operation, if there is an abnormality in the operating state, a display indicating an abnormality, such as lighting of 'FAULT', may appear on the air volume control display unit 147 of each fan.

When 'weekly time setting' is selected from the screen switching button 141, a screen for manually setting the weekly operating time of the air filtering device 100 appears. For example, when 'weekly time setting' is selected, as shown in FIG. 5 , by way of example, any one of 'Monday' to 'Sunday' is selected from the day display unit 148 on the right side of the screen, and multiple You can set the operating time of, for example, 4 operating hours. When the operating time for each day of the week is set in this way, the set value of the operating time for each day of the week is displayed in the weekly operating time setting schedule unit 149 . When 'Graph' is selected from the screen switching button 141, the fine dust concentration value and the temperature value according to the time change of the air filtering device 100 can be checked as a graph. For example, when 'graph' is selected, as illustrated in FIG. 6 for example, the graph display unit 149a shows a graph of the fine dust concentration value according to time change, a temperature value graph according to time change, and grade/ Exhaust fan airflow value graph and 1/2 airflow diffusion fan airflow value graph according to time change may appear. Through these graphs, it is possible to check how the fine dust concentration value changes with time, as well as how the air supply/exhaust fan air volume changes according to the change in the fine dust concentration value; It is possible to check how the airflow diffusion fan air volume value changes.

When 'ALAM' is selected from the screen switching button 141, messages generated during the operation of the air filtering device 100 may be checked. These messages can be displayed as a summary of the time of occurrence, contents and processing, and the contents can be confirmed in detail by selecting each message.

When 'I/O CHECK' is selected from the screen switching button 141, input and output signals such as the supply fan and exhaust fan that are being used during the operation of the air filtering device 100 can be checked. The intelligent operation unit 140 allows the user to conveniently drive the air filtering device 100 by freely selecting the manual mode or the automatic mode for the air filtering device 100 as needed.

The manipulation unit 140 may be arranged at various positions where the user may operate the manipulation unit 140 . For example, the manipulation unit 140 may be arranged on one side of the housing 134 of the filter unit 130 . The operation unit 140 is connected to the control unit 120 by wire or wireless communication to transmit a user's operation signal through the operation unit 140 to the control unit 120 , and the control unit 120 is based on the received operation signal. It is possible to control the operation of the filter unit 130 .

The operation unit 140 may transmit the operation signal to another member, for example, the control unit 130 by various methods such as wired or wireless communication. In addition, the operation unit 140 may transmit the driving control signal to the operation manager of the air filtering device 100 in real time through wired or wireless communication.

The air filtering device 100 according to the present embodiment may further include a memory unit 150 . The memory unit 150 stores information regarding the operation of the air filtering device 100 .

The memory unit 150 may store various information regarding the operation of the air filtering device 100 .

For example, the memory unit 150 is a driving control signal of the air filtering device 100 based on the air pollution state information generated by the sensing unit 110 and the air pollution state information generated by the control unit 120 . And it is possible to store various information regarding the driving history and results of the air filtering device 100 by the filtering unit 130 . The various information of the memory unit 150 stored in this way can be used in various ways for a user to drive the air filtering device 100 in the future, and can be used variously for intelligently driving the air filtering device 100 . there is.

The memory unit 150 may be arranged in various locations that can store various information related to the operation of the air filtering device 100 . For example, the memory unit 150 receives and stores various information from the sensing unit 110 , the control unit 120 or the filtering unit 130 , one side of the housing 134 of the filtering unit 130 or the control unit 120 . ) may be arranged inside, etc.

The air filtering device 100 according to the present embodiment may further include a display unit 160 . The display unit 160 displays the driving state of the air filtering device 100 .

The display unit 160 may variously display the driving state of the air filtering device 100 .

For example, the display unit 160 may include a driving control signal of the air filtering device 100 based on the air pollution state information generated by the sensing unit 110 and the air pollution state information generated by the control unit 120 and Various driving states regarding the driving history and results of the air filtration device 100 by the filtration unit 130 may be displayed. As such, the information about the various driving states displayed on the display unit 160 is appropriate immediately when the user checks whether the air filtering device 100 is started or whether the normal driving is started, and the driving is not started or abnormal driving is confirmed. It can be used to take action.

The display unit 160 may be arranged in various positions capable of displaying information about the driving state of the air filtering device 100 . For example, the display unit 160 receives and displays various information regarding each driving state from the sensing unit 110 , the control unit 120 , or the filter unit 130 of the housing 134 of the filter unit 130 . It may be arranged on one side or a position adjacent to the manipulation unit 140 . In particular, the display unit 160 is arranged at a position adjacent to the operation unit 140 or integrally with the operation unit 140 , so that the user checks the driving state of the air filtering device 100 on the display unit 160 immediately after the operation unit 140 . It is desirable to enable the operation for the operation of the appropriate air filtering device 100 in the .

The operation of the air filtering device 100 according to the present embodiment will be described.

When the power of the air filtering device 100 is turned on, the sensing unit 110 detects the air pollution state and generates information about the air pollution state. The sensing unit 110 transmits the generated air pollution state information to the control unit 120 in real time. In addition, the sensing unit 110 may transmit the generated air pollution state information to an operation manager of the air filtering device 100 in real time.

The control unit 120 generates various driving control signals for controlling the operation of the air filtering device 100 based on the air pollution state information received from the sensing unit 110 . The driving control signal generated by the control unit 120 includes a signal for starting or terminating the driving of the filter unit 130 of the air filtering device 100 , a signal regarding the time for driving the filter unit 130 , and the filter unit 130 . It may contain a signal about the strength that drives it.

The filtering unit 130 receives the driving control signal from the control unit 120 and is driven in various ways based on the received driving control signal to filter the air. For example, when the driving control signal received from the control unit 120 is a signal for starting or ending the driving of the air filtering device 100 , the filtering unit 130 starts or ends the driving according to the signal. In addition, when the drive control signal received from the control unit 120 is a signal related to the time to drive the air filtering device 100, the filtering unit 130 continues to drive for a set time, and the filtering unit 130 is the control unit ( When the driving control signal received from 120) is a signal related to the strength of driving the air filtering device 100, it continues to be driven at the set strength.

The filter 130 may be driven by a configuration including a filter 131 , an exhaust fan 132 , and an air supply fan 133 . The filter 131 allows the dust or foreign substances contained in the air to be removed while the air containing dust or foreign substances is supplied or exhausted through the air supply duct and the exhaust duct of the housing 134 , and the exhaust fan 132 is provided with the filter 131 ) to control the amount of air exhausted to the filter 131 by being located upstream of the airflow flow based on the Controls the amount of air supplied. The exhaust fan 132 and the air supply fan 133 may control the air volume of the supply air and the exhaust based on the driving control signal received from the controller 120 independently of each other or in conjunction with each other. For example, the exhaust fan 132 and the air supply fan 133 intelligently turn on/off the air volume based on a driving control signal according to a concentration measurement value of dust or foreign matter received from the control unit 120 or turn on/off the air volume. You can intelligently control the time and intensity of The on/off of the air volume or the time and intensity of the air volume may be controlled by controlling the driving itself of the exhaust fan 132 or the air supply fan 133, but is not limited thereto, and the flow of air supply or exhaust is turned on/off. Alternatively, it may be driven by a supply air damper or an exhaust damper capable of adjusting the size of the supply air or exhaust flow. The airflow diffusion fan is located upstream or downstream of the airflow flow with respect to the filter 131 to control the diffusion of air exhausted to the filter 131 or air supplied from the filter 131 . The housing 134 is a member for fixing the filter 131 to a predetermined position by surrounding the filter 131 so that air containing dust or foreign substances passes through the filter 131 .

The operation of the air filtering device 100 as described above may be operated in various modes by the user through the operation unit 140 . For example, the user can use the operation unit 140 in an automatic mode in which the air filtering device 100 is intelligently driven without the user's manipulation or in a manual mode in which the air filtering device 100 is manually operated by the user's manipulation. You can choose any one of them. When the user selects the manual mode through the manipulation unit 140 , the user may additionally select whether to drive each engine of the filtering unit 130 , a driving time, and a driving strength in the manipulation unit 100 .

Various information regarding the operation of the air filtering device 100 may be stored in the memory unit 150 . For example, the memory unit 150 is a driving control signal of the air filtering device 100 based on the air pollution state information generated by the sensing unit 110 and the air pollution state information generated by the control unit 120 . And it is possible to store various information regarding the driving history and results of the air filtering device 100 by the filtering unit 130 .

The driving state of the air filtering device 100 may be displayed on the display unit 160 . For example, the display unit 160 may include a driving control signal of the air filtering device 100 based on the air pollution state information generated by the sensing unit 110 and the air pollution state information generated by the control unit 120 and Various driving states regarding the driving history and results of the air filtration device 100 by the filtration unit 130 may be displayed.

(Example 2)

An air filtration method intelligently driven based on air pollution state information according to another embodiment of the present invention is provided by an air filtration device intelligently driven based on the air pollution state information according to the above-described embodiment. air filtration method.

This air filtration method (S200) is, first, as shown by way of example in FIG. 7, sensing the air pollution state and generating information about the air pollution state (S210), and the generated air pollution state It includes a step of generating a signal for controlling the driving of the air filtering device based on the information (S220) and filtering the air based on the generated driving control signal (S230).

The air pollution state information generated in step S210 of generating information about the air pollution state may include a measurement value regarding the concentration of dust or foreign substances contained in the air. The generated air pollution state information may be transmitted through wired or wireless communication.

The driving control signal generated in the step (S220) of generating a signal for controlling the driving of the air filtering device may include a signal for starting or terminating the driving of the air filtering device. Here, the driving start signal of the controller may be generated when the measured value related to the air pollution state information is equal to or exceeds the set value for a predetermined time. The driving end signal of the control unit may be generated when a measured value related to air pollution state information is less than a set value for a predetermined time.

In addition, the drive control signal generated in the step (S220) of generating a signal for controlling the driving of the air filtering device may include a signal regarding the time to drive the air filtering device. Here, the driving time signal may be to continuously drive the filter unit for a set time.

The step of filtering the air (S230), when the generated driving control signal is a signal to start or end the driving of the air filtering device, it may be to start or end the driving. In addition, the step of filtering the air (S230), when the generated drive control signal is a signal relating to the time to drive the air filtering device, it may be continuously driven for a set time.

On the other hand, the air filtration method (S200) for intelligently driving based on the state information of the air further includes the step (S240) of selecting a manual mode to be driven manually by the user's operation based on the information on the pollution state of the air can do. The manual mode may be selected when the air filtering device is not intelligently driven, or when the user wishes to arbitrarily drive the air filtering device through the manual mode even though the air filtering device is intelligently driven. When the manual mode is selected, the user can further select whether each engine of the filter unit is driven and the operating time.

The air filtering method (S200) according to the present embodiment may further include a step (S250) of storing information about the air filtering.

The air filtering method (S200) according to the present embodiment may further include a step (S260) of displaying the air filtering state. Here, a method of displaying the air filtration state may be made in various ways. For example, the air filtration state is the concentration of PM10 fine particles with a particle diameter of 10 μm or less or PM2.5 ultrafine particles with a particle diameter of 2.5 μm or less, that is, the weight per unit volume of dust or foreign substances contained in indoor air. It can be expressed as a degree (unit: ㎍/㎥).

The present invention can be used in air filtration devices and methods.

100: air filtering device, 110: sensing unit, 120: control unit, 130: filtering unit, 131: filter, 132: exhaust fan, 132a: exhaust exhaust, 132b: outside air inlet, 133: supply fan, 134: housing, 140 : operation unit, 141: screen change button, 142: current date and time display unit, 143: fine dust sensor value and temperature value display unit, 144: control mode selection unit, 145: status display unit of each fan, 146: operation of each fan, Stop and air volume control unit, 147: air volume control display unit for each fan, 148: day display unit, 149: weekly operation time setting constant unit, 149a: graph display unit, 150: memory unit, 160: display unit

Claims (15)

An air filtration device that intelligently operates based on air pollution state information, comprising:
a sensing unit that detects air pollution and generates information on air pollution;
a control unit for generating and transmitting a signal for controlling the operation of the air filtering device based on the air pollution state information received from the sensing unit; and
It is driven based on the driving control signal received from the control unit, and a filtration unit that filters air;
The filtration unit includes a filter for removing foreign substances contained in the air as the air containing the foreign substances passes, an exhaust fan located upstream of the air flow with respect to the filter to control the amount of air exhausted to the filter, and a filter. An air supply fan positioned downstream of the air flow as a reference to control the amount of air supplied from the filter is provided.
Between the exhaust fan and the filter, an exhaust discharge part for discharging a portion of the exhaust containing foreign substances exhausted by the exhaust fan to the outside, and an outdoor air introduction part for sucking outside air as much as the exhaust discharged to the outside and including it in the exhaust is further installed,
The sensing unit includes a first sensing unit arranged in an exhaust duct through which exhaust containing foreign substances is introduced into the exhaust fan to detect a concentration value of foreign substances contained in the exhaust, and a first sensing unit arranged in the outside air duct through which outside air is introduced into the outside air inlet to the outside air. A second sensing unit for detecting the concentration value of the contained foreign matter, and arranged in the front part of the filter through which the air mixed with the exhaust and the outside air is introduced into the filter to detect the concentration value of the foreign material contained in the air with the exhaust and the outside air It includes a third sensing unit,
The control unit drives at least one of an exhaust fan or an air supply fan when the concentration value of foreign substances contained in the air in which the exhaust and outdoor air are mixed, which is received from the third sensing unit, is equal to or exceeds the set value for a predetermined time A start signal is generated, and when the concentration value of foreign substances contained in the mixed air of the exhaust and outside air received from the third sensing unit is less than the set value for a certain period of time, a driving end signal of the exhaust fan and the air supply fan is generated,
The filter unit, when receiving a driving start signal of at least one of the exhaust fan or the supply fan generated when the concentration value of the foreign material in the air mixed with the exhaust and the outside air is equal to or exceeds the set value for a predetermined time from the control unit Starts driving at least one of the fan or the supply fan, and receives a driving end signal of the exhaust fan and the air supply fan that is generated when the concentration value of foreign substances in the air mixed with the exhaust and outside air is less than the set value for a certain period of time from the control unit. to end the operation of the exhaust fan and the supply air fan when
An air filtration device that operates intelligently based on information on air pollution conditions. The method according to claim 1,
An air filtration device intelligently driven based on the air pollution state information, characterized in that the air pollution state information generated by the sensing unit includes a measurement value related to the concentration of dust or foreign substances contained in the air. The method according to claim 1,
The air filtering device intelligently driven based on the air pollution state information, characterized in that the sensing unit is arranged in the path through which the air moves.
intelligent The method according to claim 1,
The air filtering device intelligently driven based on air pollution state information, characterized in that the driving control signal generated by the control unit includes a signal for starting or ending the driving of the air filtering device. 5. The method according to claim 4,
The driving start signal of the control unit is an air filtering device intelligently driven based on the air condition information, characterized in that it is generated when the measured value related to the air pollution condition information is the same as the set value for a certain time or exceeds the set value . 5. The method according to claim 4,
An air filtering device intelligently driven based on the air pollution state information, characterized in that the driving end signal of the control unit is generated when the measured value related to the air pollution state information is less than the set value for a certain period of time. The method according to claim 1,
The air filtering device intelligently driven based on the air pollution state information, characterized in that the driving control signal generated by the control unit includes a signal regarding the time to drive the air filtering device. 8. The method of claim 7,
The air filtering device intelligently driven based on the air pollution state information, characterized in that the driving time signal of the control unit continuously drives the filtering unit for a set time. The method according to claim 1,
An air filtering device intelligently driven based on air pollution state information, characterized in that the filtering unit starts or ends the driving when the driving control signal received from the control unit is a signal to start or end the driving of the air filtering device. The method according to claim 1,
An air filtering device intelligently driven based on air pollution state information, characterized in that when the driving control signal received from the control unit is a signal related to the driving time of the air filtering device, the filtering unit is continuously driven for a set time. The method according to claim 1,
The air filtering device intelligently driven based on air pollution state information, characterized in that it further comprises a manipulation unit that allows a user to operate a driving mode of the air filtering device. 12. The method of claim 11,
Air pollution state information, characterized in that the control unit selects an automatic mode in which the air filtering device is intelligently operated without user operation or a manual mode in which the air filtering device is manually operated by the user's operation Intelligently driven air filtration device based on 13. The method of claim 12,
An air filtering device intelligently driven based on air pollution state information, characterized in that it is possible to further select whether to drive each engine of the filtering unit, drive time, and drive strength when manual mode is selected. The method according to claim 1,
The air filtering device intelligently driven based on the air condition information, characterized in that it further comprises a display unit for displaying the driving state of the air filtering device. generating information on the air pollution state by sensing the air pollution state;
generating a signal for controlling the operation of the air filtering device based on the generated air pollution state information; and
filtering the air based on the generated drive control signal;
The step of filtering the air is made by a filtering unit,
filter unit,
A filter that removes foreign substances contained in the air as the air containing foreign substances passes through, an exhaust fan located upstream of the airflow flow based on the filter to control the amount of air exhausted through the filter, and the airflow based on the filter and an air supply fan located downstream of the flow to control the amount of air supplied from the filter,
Between the exhaust fan and the filter, an exhaust discharge part for discharging a portion of the exhaust containing foreign substances exhausted by the exhaust fan to the outside, and an outdoor air introduction part for sucking outside air as much as the exhaust discharged to the outside and including it in the exhaust is further installed,
The sensing unit includes a first sensing unit arranged in an exhaust duct through which exhaust containing foreign substances is introduced into the exhaust fan to detect a concentration value of foreign substances contained in the exhaust, and a first sensing unit arranged in the outside air duct through which outside air is introduced into the outside air inlet to the outside air. A second sensing unit for detecting the concentration value of the contained foreign matter, and arranged in the front part of the filter through which the air mixed with the exhaust and the outside air is introduced into the filter to detect the concentration value of the foreign material contained in the air with the exhaust and the outside air It includes a third sensing unit,
The control unit drives at least one of an exhaust fan or an air supply fan when the concentration value of the foreign material contained in the air in which the exhaust and the outside air are mixed, which is received from the third sensing unit, is equal to or exceeds the set value for a certain period of time A start signal is generated, and when the concentration value of foreign substances contained in the air mixed with the exhaust and the outside air received from the third sensing unit is less than the set value for a certain period of time, a driving end signal of the exhaust fan and the air supply fan is generated,
The filtering unit, when receiving a driving start signal of at least one of the exhaust fan or the supply fan generated when the concentration value of the foreign matter concentration of the air mixed with the exhaust and the outside air is equal to or exceeds the set value for a predetermined time from the control unit Starts driving at least one of the fan or the supply fan, and receives a driving end signal of the exhaust fan and the supply fan, which is generated when the concentration value of foreign substances in the air mixed with the exhaust and outside air is less than the set value for a certain period of time from the control unit. to end the operation of the exhaust fan and the supply air fan when
An intelligent air filtration method based on air pollution status information.

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