KR20160102676A - Air Purifier - Google Patents

Abstract

Disclosed is an air purifier. The air purifier includes: a housing having an inner flow path for inflow of internal air; a filter unit installed in the housing and comprising a filter air blower operated for intake of the internal air, and a capacitive roll filter installed between the inner flow path and the filter air blower to remove particulate contaminants included in the internal air; an adsorption unit installed in the housing and comprising an adsorption air blower driving to suck the internal air by filtering the internal air using the capacitive roll filter, and an adsorption module installed between the capacitive roll filter and the adsorption air blower to remove gas contaminants included in the internal air filtered and installed to be detached to be replaced; a detection unit installed in the inner flow path and measuring the particle contaminants and gas contaminants; and a control unit individually controlling the filter unit and the adsorption unit depending on each contaminant detected by the detection unit. The air purifier maximizes purification efficiency of the internal air in a motorcar by performing a purifying function as necessary by separately performing the purifying function for the particle contaminants and the gas contaminants using the control unit. The air purifier can extend a service life of the filter or the adsorption module used for purification.

Description

Air Purifier

More particularly, the present invention relates to an air purifying apparatus provided inside a motor vehicle, and more particularly, to an apparatus and a method for removing particulate pollutants and gaseous pollutants contained in indoor air, And more particularly, to an air purifying device for increasing the efficiency and lifetime of a filter and an adsorption module provided for a mobile phone.

BACKGROUND ART [0002] Generally, an air purifier is provided inside a train for filtering room air containing pollutants such as fine dust to purify indoor air and filtering the pollutants through a filter or the like so as to re- .

1 is a view showing an indoor air quality recommendation standard of a public transportation vehicle.

As shown in FIG. 1, the indoor air largely includes particulate pollutants such as fine dust and gaseous pollutants such as carbon dioxide. In order to ensure safety of passengers using a train, recommendation criteria for tolerance of the pollutants are provided, and methods for efficiently removing the pollutants have been suggested.

Conventionally, there is provided a dust filter which is capable of replacing a filtration surface by being wound and unwound inside a case of an air purifier for removing particulate pollutants, and the air filtered through the dust filter is provided with a carbon dioxide adsorption module More filtering devices have been proposed.

However, the conventional air purifying apparatus is provided with a structure in which the dust filter and the carbon dioxide adsorption module are integrated or the two functions are performed together to reduce the efficiency of removing the contaminants, and the life of each filter or the adsorption module is deteriorated So that the replacement cycle is shortened.

It is an object of the present invention to provide an air purifier capable of separately performing a purifying function of particulate pollutants and gaseous pollutants contained in the air of a train car.

According to an aspect of the present invention, there is provided an air purifying apparatus including: a housing having an internal flow path for introducing indoor air; A filter blower installed inside the housing and driven for intake of the room air and an electrostatic roll filter provided between the inner channel and the filter blower for removing particulate pollutants contained in the room air A filter portion; An adsorbing blower provided in the housing and driven to suck the room air but being filtered by the electrostatic roll filter to be sucked; and an adsorber blower installed in the housing for removing the gaseous contaminants contained in the filtered room air, And an adsorption module provided between the adsorption blower and detachably attached for replacement; A detection unit provided in the internal flow path to measure the particulate pollutants and the gaseous pollutants; And a controller configured to control the filter unit and the adsorption unit according to detection values of the respective pollutants measured by the detection unit.

The control unit controls the filter blower and the suction blower to be driven separately according to the measured values of the particulate pollutants and the gaseous pollutants measured by the detector, The function of removing the particulate contaminants may be performed separately, and the function of removing the particulate contaminants may be performed with the function of removing the particulate contaminants.

The control unit controls the rotational speeds of the filter blower and the suction blower according to the detection value of the detection unit so that the weight of the particulate pollutant and the function of removing the gaseous pollutant can be adjusted.

The filter unit may include a pressure sensor for measuring a pressure of the particulate contaminants deposited on the electrostatic rolling filter, The filtration surface can be replaced.

In addition, the control unit adjusts the winding length of the electrostatic roll filter according to whether the suction blower driven separately from the filter blower is driven, thereby adjusting the filtration surface to be replaced.

The housing may include a first inlet formed to be open at all times in the indoor direction to communicate with the internal flow path for introducing the room air, And a second inlet formed in the width direction of the installed side wall for introducing the indoor air and communicating with the internal flow path, and the second inlet may be controlled by the controller to be opened and closed.

In addition, the housing may include a first inlet formed to be open at all times in the indoor direction to communicate with the internal flow path for purifying the indoor air through filtration of the indoor air, And a third inlet formed symmetrically with respect to the first inlet in the outdoor direction for purifying the room air through supply of outdoor air, and the third inlet is controlled by the controller to be opened and closed .

The control unit may further include a storage unit that is detachably provided so as to secure data on the indoor air quality and stores the detection value measured by the detection unit.

The air conditioner may further include a transmitter for securing data on indoor air quality and transmitting the indoor air quality data to a remote place in real time.

Accordingly, the purifying function of the particulate pollutants and the gaseous pollutants is separately driven through the control unit, and the purifying function is performed as necessary, thereby maximizing the purifying efficiency of the indoor air in the electric vehicle, And the service life of the adsorption module can be prolonged.

1 is a view showing an indoor air quality recommendation standard of a public transportation vehicle,
FIG. 2 is a perspective view showing the outline of an air purifying apparatus according to an embodiment of the present invention, FIG.
3 is a front view showing the outline of an air purifying apparatus according to an embodiment of the present invention,
FIG. 4 is a sectional view showing the internal structure of an air purifying apparatus according to an embodiment of the present invention;
5 is a view showing a second inlet communicating with an internal flow path according to another embodiment of the present invention, and Fig.
6 is a view illustrating a third inlet communicated with an internal flow path according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below are provided by way of example so that those skilled in the art will be able to fully understand the spirit of the present invention. The present invention is not limited to the embodiments described below and may be embodied in other forms. In order to clearly explain the present invention, parts not related to the description are omitted from the drawings, and the width, length, thickness, etc. of the components may be exaggerated for convenience. Like reference numerals refer to like elements throughout the specification.

The air purifier 100 according to the present embodiment includes a filter unit 120 capable of filtering particulate pollutants contained in indoor air of a motor vehicle inside a housing 110 forming a main body, And a control unit 150 is provided in each of the filter unit 120 and the adsorption unit 130. The blower 121 is connected to the suction unit 130. The blower 121 is connected to the suction unit 130, So that when the particulate pollutants and gaseous pollutants are detected by the detecting unit 140, the pollutant removing function is performed separately.

FIG. 2 is a perspective view showing an outline of an air purifying apparatus according to an embodiment of the present invention, FIG. 3 is a front view showing an outline of an air purifying apparatus according to an embodiment of the present invention, Sectional view showing the internal structure of the air purifying apparatus according to the embodiment.

As shown in FIGS. 2 to 4, the air purifier 100 is installed in a ceiling or a side wall of a railway car to clean or purify indoor air introduced into or drawn from one side and the other side through a filtering function, A filter unit 120, a suction unit 130, a detection unit 140, and a control unit 150. The control unit 150 controls the operation of the housing 110, the filter unit 120, the suction unit 130,

The housing 110 has a lattice shape including a filter portion 120 and a suction portion 130 so as to be easily mounted on the side wall of the electric motor, And includes an inner flow path 111 and a first inlet 112. [

The first air inlet 112 and the second air inlet 112 are formed in the air purifying device 100 in consideration of the structure provided on the side wall for purifying indoor air, An internal flow passage 111 is formed between the adsorption section 120 and the adsorption section 130.

The inner flow path 111 is formed to communicate the filter unit 120 and the adsorption unit 130 from the first inlet 112 for guiding the intake air to the filter unit 120 and the adsorption unit 130 .

The first inlet 112 is provided toward the inside of the room through an outlet port through which indoor air containing contaminants can flow.

The filter unit 120 is provided to filter the particulate contaminants contained in the indoor air introduced through the internal flow path 111 of the housing 110. The filter unit 120 is provided in one direction of the housing 110, And an electrostatic-type roll filter 122.

The filter blower 121 is separately controlled and driven and rotated by the control unit 150, thereby allowing indoor air to flow through the internal flow path 111. [

The electrostatic roll filter 122 is constituted by a pair of filter rolling devices and a double electrostatic filter between the internal flow path 111 and the filter blower 121 so that the double electrostatic filter is released by the pair of filter rolling devices The filter surface of the double electrostatic filter is replaced when the filtering function of the double electrostatic filter is accumulated and accumulated by the particulate pollutant.

At this time, the double electrostatic filter has a structure in which a medium filter and an eletric filter are stacked, and the interval is 2 to 5 mm so as to be integrated with each other, Dust is firstly filtered through the medium filter, and second ultrafine dust is again filtered through an electrostatic filter to remove particulate pollutants.

The electrostatic filter is a polypropylene type filter having a surface potential of about 0.8 KV or more and a differential pressure effect of less than 10 mmH2 at a flow rate of 300 CMH. The particle collection efficiency of such an electrostatic filter includes a collection efficiency of 70% or more at a particle diameter of 2.5 micrometers and a collection efficiency of 90% or more at 10 micrometers based on a counting method. Particularly, the double electrostatic filter is wound up to a length of about 20 m and can be used for about 6 months or more for 12 hours of continuous use a day, thereby extending the replacement demand and the maintenance period.

Further, the filter surface replacement period of the dual electrostatic filter can be performed according to the running time of the electric motor vehicle and the driving time of the filter unit 120, and a pressure sensor capable of measuring the pressure difference between both ends in the longitudinal direction of the electrostatic filter So that the filtration surface can be replaced by the pressure difference of the particulate matter accumulated and accumulated in the dual electrostatic filter.

The adsorption unit 130 filters the gaseous contaminants contained in the indoor air flowing through the internal flow path 111 of the housing 110 and is provided in the other direction of the housing 110. The adsorption unit 130 And an adsorption module 132.

The adsorbing part 130 is very vulnerable to the sedimentation of the particulate contaminants on the pores of the adsorption module 132. The adsorbing part 130 is not provided to directly communicate with the internal flow path 111, Which is provided on the rear surface of the roll filter 122, that is, on the rear surface of the conveying path of the introduced indoor air, to filter the gaseous contaminants contained in the indoor air from which the particulate contaminants have been removed.

The adsorption blower 131 is controlled by the controller 150 in the same manner as the configuration and function of the filter blower 121 to allow indoor air to flow through the internal flow path 111.

The adsorption module 132 is detachably installed between the adsorption blower 131 and the electrostatic roll filter 122 for filtration of the gaseous contaminants. The adsorption module 132 includes a mesh in the form of a fine mesh, And a zeolite-based adsorbent filled in the mesh.

The detection unit 140 is provided on the internal flow path 111 or the first inlet 112 for measuring the presence and concentration of particulate pollutants and gaseous pollutants contained in the incoming indoor air.

The control unit 150 controls the filter unit 120 and the adsorption unit 130 according to the presence or concentration of particulate pollutants or gaseous pollutants detected by the detection unit 140 and is provided inside the housing 110 .

The control unit 150 controls the filter blower 121 and the adsorbing blower 131 to be driven separately so that the filter unit 120 is driven when the particulate pollutant is detected or when the adsorbing unit 131 is always driven. It is possible to separately drive only when the gas phase contaminants are detected by the gas sensor 140.

Part of the filtration surface exposed to the outside of the electrostatic roll filter 122 allows the particulate contaminants to be filtered by driving the filter blower 121, It is possible to remove particulate pollutants prior to the removal of the material so that if the winding length of the electrostatic roll filter 122, that is, the winding and unwinding length, is not properly adjusted as the adsorption part 130 is driven, The replacement period of the filter 122 must be constant according to the driving time of the filter blower 121.

Therefore, the winding of the electrostatic roll filter 122 is performed in consideration of the pressure difference of the particulate matter contaminants caused by the pressure sensor described above, and in consideration of the driving time of the adsorption blower 131, It may be desirable to adjust the length.

The function of removing the particulate contaminants from the air purifier 100 and the function of removing the gaseous contaminants may be separately driven by the respective blowers controlled by the controller 150, The weight of the filtration and removal function can be adjusted.

In other words, the efficiency of the filtering and removing function can be dramatically increased by allowing the detecting unit 140 to change the rotating speed of each blower depending on the presence and concentration of particulate matter and gaseous contaminants.

The operation and characteristics of the air purifier 100 in which the filter unit 120 and the suction unit 130 having the above-described structure can be driven separately will be described below.

External pollutants may enter the room due to the opening and closing of the doorway or the frequent flow of the user. In this case, the indoor air may contain particulate pollutants such as fine dusts and ultrafine dusts and carbon dioxide, volatile organic compounds and formaldehyde Contains gaseous pollutants.

The particulate pollutants may be generated at all times due to a change in the external environment of the electric vehicle with the inflow and outflow of the user, so that the filter unit 120 in the air purifier 100 can always be driven by the controller 150, 140 may be controlled according to the control of the controller 150.

However, since the gaseous pollutants may be different depending on the number of users who flow into and out of the train, the suction unit 130 may be driven separately from the filter unit 120, The adsorption unit 130 and the filter unit 120 are separately driven to maximize the efficiency of removing the particulate matter and gaseous contaminants and the adsorption unit 130 and the filter unit 120 The service life can be prolonged.

The controller 140 measures the presence or absence of particulate contaminants and gaseous contaminants and transmits the measured particulate contaminants to the controller 150. The controller 150 controls the removal of the adsorbent 130 through the adsorbent blower 131, The adsorption efficiency and service life of the adsorption unit 130 can be extended.

The control unit 150 controls the performance and weight of the filter unit 120 through the filter blower 121 to increase the adsorption efficiency of the filter unit 120, By adjusting the winding length of the filtering roll filter 122, the adsorption efficiency of the filter portion 120 can be increased and the service life can be prolonged.

In addition, although not shown in the drawing, the air purifier 100 according to the embodiment of the present invention includes data for each pollutant by the detector 140 and data for the pollutants, (Not shown) capable of storing data on the driving and removing efficiency of the adsorption unit 130.

In addition, a transmission unit (not shown) may be further provided for real-time transmission of the data to a remote location, and the transmission unit (not shown) may transmit the data in real time through a storage unit .

FIG. 5 is a view showing a second inlet communicated with an internal flow path according to another embodiment of the present invention, and FIG. 6 is a view showing a fourth inlet communicating with an internal flow path according to another embodiment of the present invention.

As shown in FIGS. 5 and 6, the air purifying apparatus 100 controls the removal function of each pollutant to purify the indoor air, and the purifying function by filtering and recirculating the indoor air is a target When the bar can not be formed, the second and fourth inlets 214 may be formed in addition to the first inlet 112 communicating with the inner passage 111.

The second inlet 213 is formed on one side of the housing 110 in the sidewall direction to filter the outdoor air inside the body of the motor vehicle through the filter unit 120 and the suction unit 130 So that clean indoor air quality can be maintained.

In addition, a fourth inlet 214 formed in a plane symmetric with the first inlet 112, that is, in the outdoor direction, is further provided, so that outdoor air based on the electric train can pass through the filter unit 120 and the adsorption unit 130, So that clean indoor air quality can be maintained together with the first and second inlets 213. [

The first inlet 112 is always open while the second and fourth inlet 214 are opened or closed according to need or purpose. The opening and closing of the second inlet 114 and the fourth inlet 114 can be opened or closed by the controller 150 .

Accordingly, the purifying function of the particulate pollutants and the gaseous pollutants is separately driven through the control unit 150, so that the purifying function is performed as necessary, thereby maximizing the purifying efficiency of the indoor air in the electric vehicle, And the service life of the filter or adsorption module 132 can be prolonged.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention.

100: air purifier 110: housing
111: inner flow path 112: first inlet
120: filter unit 121: filter blower
122: Electrostatic roll filter 130:
131: Adsorption blower 132: Adsorption module
140: Detection unit 150:
213: second inlet 214: third inlet
A storage unit (not shown) a transmitter (not shown)

Claims (9)

A housing having an internal flow path for introducing indoor air;
A filter blower installed inside the housing and driven for intake of the room air and an electrostatic roll filter provided between the inner channel and the filter blower for removing particulate pollutants contained in the room air A filter portion;
An adsorbing blower provided in the housing and driven to be sucked by the electrostatic roll filter and taken in by the electrostatic roll filter; and an adsorber blower installed in the housing to remove the gaseous contaminants contained in the filtered room air, And an adsorption module provided between the adsorption blower and detachably attached for replacement;
A detection unit provided in the internal flow path to measure the particulate pollutants and the gaseous pollutants; And
And a controller configured to control the filter unit and the adsorption unit according to detection values of the respective pollutants measured by the detection unit. The method according to claim 1,
Wherein,
Wherein the control unit controls the filter blower and the suction blower to be driven separately according to the measurement values of the particulate pollutants and the gaseous pollutants measured by the detection unit to perform the function of removing the gaseous pollutants and the removal of the particulate pollutants Wherein the function of removing the gaseous pollutants is carried out with the function of removing the particulate pollutants. The method according to claim 1,
Wherein,
Wherein a weight of the particulate pollutant and the function of removing the gaseous pollutant are adjusted by controlling the rotation speeds of the filter blower and the suction blower in accordance with the detection value of the detection unit. The method according to claim 1,
The filter unit includes:
And a pressure sensor for measuring a pressure of the particulate pollutant deposited on the electrostatic rolling filter,
Wherein,
Wherein the filtering surface is replaced through the winding of the rolling filter according to the measured value of the pressure sensor. The method according to claim 1,
Wherein,
Wherein the length of winding of the electrostatic roll filter is adjusted according to whether the suction blower driven separately from the filter blower is driven, thereby adjusting the filter surface to be replaced. The method according to claim 1,
The housing includes:
A first inlet formed so as to be open at all times in the indoor direction for communicating with the internal flow path for introducing the indoor air; And
And a second inlet formed in the width direction of the installed side wall for communicating with the internal flow path for introducing the indoor air,
The second inlet
And is controlled and opened by the control unit. The method according to claim 1,
The housing includes:
A first inlet formed to be open at all times in the indoor direction to communicate with the internal flow path for purifying the indoor air through filtration of the indoor air; And
And a third inlet formed to be symmetrical with the first inlet in an outdoor direction for purifying the room air through supply of outdoor air,
The third inlet
And is controlled and opened by the control unit. The method according to claim 1,
Further comprising: a storage unit configured to store data detected by the detection unit in a detachable manner so as to secure data on indoor air quality. The method according to claim 1,
Further comprising: a transmitter configured to acquire data on indoor air quality and transmit the data to a remote place in real time.

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