WO2016023487A1 - 基于静电除尘过滤器的除霾新风系统及其控制方法 - Google Patents

基于静电除尘过滤器的除霾新风系统及其控制方法 Download PDF

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WO2016023487A1
WO2016023487A1 PCT/CN2015/086720 CN2015086720W WO2016023487A1 WO 2016023487 A1 WO2016023487 A1 WO 2016023487A1 CN 2015086720 W CN2015086720 W CN 2015086720W WO 2016023487 A1 WO2016023487 A1 WO 2016023487A1
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electrostatic precipitator
fresh air
precipitator filter
air
humidity
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PCT/CN2015/086720
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English (en)
French (fr)
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戴若夫
辜显旺
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戴若夫
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/89Arrangement or mounting of control or safety devices

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  • the invention relates to the field of indoor air purification, in particular to a fresh air removal system based on an electrostatic dust removal filter and a control method thereof.
  • the fresh air removal system with electrostatic precipitator filter can remove the outdoor air and remove it into the room through the air supply port of the fresh air system, and the air outlet can discharge the indoor air to the outside to improve the indoor air quality.
  • the plate of the electrostatic precipitator filter will not be able to send power and stop working. Once the electrostatic precipitator filter stops working, it is impossible to judge when the electrostatic precipitator filter can be activated again.
  • the use of the fresh air system is very inconvenient. If you try to activate the electrostatic precipitator filter when the outdoor humidity is high, it will cause energy waste.
  • the technical problem to be solved by the present invention is to overcome the deficiencies of the prior art, and provide a fresh air removal system based on an electrostatic precipitator filter that can control the opening or closing of an electrostatic precipitator filter according to outdoor humidity, is convenient to use, and saves energy. Control Method.
  • the present invention adopts the following technical solutions:
  • a fresh air removal system based on an electrostatic precipitator filter comprising an air supply port, wherein the air supply port is connected to the outdoor air through a air supply pipe, and the air supply pipe is provided with a blowing fan, and the air supply pipe is provided with Electrostatic precipitator filter and bypass fresh air
  • the bypass fresh air pipe is connected in parallel with the electrostatic dust filter, and the bypass fresh air pipe, the electrostatic dust filter and the air supply pipe are connected through a three-way electromagnetic switching valve, and the fresh air removal system is further
  • a humidity sensor and a control device are disposed, and the humidity sensor is placed outdoors and connected to the control device, and the control device is respectively connected to the three-way electromagnetic switching valve and the opening and closing control valve of the electrostatic precipitator filter.
  • the ventilating fresh air system further includes an exhaust vent, wherein the vent is connected to the outdoor air through an exhaust duct, and the exhaust duct is provided with an exhaust fan.
  • the method for controlling a fresh air removal system based on an electrostatic precipitator filter of the present invention can detect outdoor humidity And outdoor humidity And setting the humidity value Compare to determine if the electrostatic precipitator filter is turned on, if outdoor humidity Less than or equal to the set humidity value Start the electrostatic precipitator filter, and send fresh air, through the electrostatic precipitator filter, enter the room, if the outdoor humidity Greater than the set humidity value Turn off the electrostatic precipitator filter, send fresh air through the bypass fresh air duct, and continue to detect outdoor humidity Until outdoor humidity Less than or equal to the set humidity value After starting the electrostatic precipitator filter, the bypass new air duct is closed, and the electrostatic precipitator filter starts normal dehumidification work, when the outdoor humidity Greater than the set humidity value When the electrostatic precipitator filter is not activated, avoid unnecessary energy waste when outdoor humidity Less than or equal to the set humidity value When the electrostatic precipitator filter is automatically activated, the anti-friction fresh air system based on the electrostatic precipitator filter of the present invention is very convenient and reliable to use
  • the anti-mite fresh air system based on the electrostatic precipitator of the present invention, the electrostatic dust filter and the bypass fresh air pipe which are connected in parallel with each other are arranged on the air supply pipe, and the humidity sensor and the control device are disposed, and the humidity sensor is placed outdoors. And connected to the control device, the control device is connected with the control valve of the electrostatic precipitator filter, the control valve of the bypass fresh air pipe, and the outdoor humidity is monitored by the humidity sensor at any time.
  • the outdoor humidity is controlled by the control device And setting the humidity value Compare and control the control valve of the electrostatic precipitator filter and the control valve of the bypass fresh air pipe according to the comparison result, if the outdoor humidity Less than or equal to the set humidity value Start the electrostatic precipitator filter, send fresh air, enter the room through the electrostatic precipitator filter, start normal work, and achieve the effect of purifying and removing the indoor air. If the outdoor humidity is greater than the set humidity value. Turn off the electrostatic precipitator filter and open the bypass fresh air duct while continuing to detect the outdoor humidity Until outdoor humidity Less than or equal to the set humidity value After starting the electrostatic precipitator filter, the bypass new air duct is closed, and normal operation begins.
  • the electrostatic precipitator filter does not work properly, and the system can automatically perform outdoor humidity. It is very convenient to monitor, judge and automatically control the opening or closing of the electrostatic precipitator filter.
  • FIG. 1 is a schematic flow chart of a control method of a fresh air removal system based on an electrostatic precipitator filter according to the present invention.
  • FIG. 2 is a schematic view showing the structure of a fresh air removal system based on an electrostatic precipitator filter of the present invention.
  • the control method comprises the following steps:
  • the set humidity value is set before the step S1 is performed.
  • the bypass new air duct is closed, and the electrostatic precipitator filter starts normal dehumidification work, when the outdoor humidity Greater than the set humidity value
  • the electrostatic precipitator filter 7 is not activated, avoid unnecessary energy waste, when the outdoor humidity Less than or equal to the set humidity value
  • the electrostatic precipitator filter 7 is automatically activated, and the control method makes the electrostatic dust removal filter based on the electrostatic precipitator filter very convenient and reliable.
  • the fresh air removal system based on the electrostatic dust filter includes an air supply port 1, and the air supply port 1 passes through the air supply pipe 3 and the outdoor air.
  • the air supply duct 3 is provided with a blower fan 5, and the air supply duct 3 is provided with an electrostatic precipitator filter 7 and a bypass fresh air duct 8, and the bypass fresh air duct 8 is connected in parallel with the electrostatic precipitator filter 7, bypass
  • the fresh air duct 8, the electrostatic precipitator filter 7 and the air supply duct 3 are connected by a three-way electromagnetic switching valve 11, and the fresh air system further includes a humidity sensor 9 and a control device 10, and the humidity sensor 9 is placed outdoors and with the control device 10.
  • control device 10 is respectively connected to the three-way electromagnetic switching valve 11 and the opening and closing control valve of the electrostatic precipitator filter 7, and the electrostatic dust filter 7 and the bypass fresh air pipe 8 which are connected in parallel with each other are arranged on the air supply pipe 3, and
  • the humidity sensor 9 and the control device 10 are disposed, and the humidity sensor 9 is placed outdoors and connected to the control device 10.
  • the control device 10 is connected to the control valve of the electrostatic precipitator filter 7, the control valve of the bypass fresh air pipe 8, and passes through the humidity sensor 9. Monitor outdoor humidity at any time And feedback to the control device 10, the outdoor humidity is controlled by the control device 10.
  • the control valve of the electrostatic precipitator filter 7 and the control valve of the bypass fresh air pipe 8 are controlled according to the comparison result, that is, if the outdoor humidity is Less than or equal to the set humidity value Start the electrostatic precipitator filter 7, and send fresh air, through the electrostatic precipitator filter 7, enter the room, start normal work, to achieve the effect of indoor air purification and removal, if outdoor humidity Greater than the set humidity value
  • the electrostatic precipitator filter 7 is turned off by controlling the three-way electromagnetic switching valve 11 and the bypass fresh air duct 8 is turned on, and the outdoor humidity is continuously detected.
  • the electrostatic precipitator filter 7 is activated by controlling the three-way electromagnetic switching valve 11 and the bypass fresh air pipe 8 is closed to start normal operation. Therefore, in the work of the fresh air removal system based on the electrostatic precipitator filter, once it is outdoor humidity Greater than the set humidity value And the electrostatic precipitator filter 7 can not work normally, the system can automatically carry out outdoor humidity It is very convenient to monitor, judge and automatically control the opening or closing of the electrostatic precipitator filter 7.
  • the fresh air system further includes an air exhaust port 2, and the air exhaust port 2 communicates with the outdoor air through the air exhaust pipe 4, and the air exhaust pipe 4 is provided with an air exhaust fan 6, and the air exhaust port and the exhaust air pipe are disposed. 4. Arrange the polluted air in the room to the outside in time.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Filtering Of Dispersed Particles In Gases (AREA)
  • Electrostatic Separation (AREA)
  • Ventilation (AREA)

Abstract

一种基于静电除尘过滤器的除霾新风系统及其控制方法,该方法包括检测室外湿度φ,若φ≤φ1,启动静电除尘过滤器(7),并送新风、经静电除尘过滤器(7)后进入室内,若φ>φ1,保持静电除尘过滤器(7)关闭、通过旁路新风管(8)送新风,同时返回步骤S1,从而可根据室外湿度控制静电除尘过滤器(7)开启或关闭。该除霾新风系统的送风管(3)上设有静电除尘过滤器(7)和旁路新风管(8),旁路新风管(8)与静电除尘过滤器(7)并联,旁路新风管(8)、静电除尘过滤器(7)和送风管(3)通过三通电磁切换阀(11)连通,除霾新风系统还包括湿度传感器(9)和控制装置(10),湿度传感器(9)置于室外且与控制装置(10)相连,控制装置(10)分别与三通电磁切换阀(11)以及静电除尘过滤器(7)的启闭控制阀相连。该除霾新风系统使用方便、节约能源。

Description

基于静电除尘过滤器的除霾新风系统及其控制方法 【技术领域】
本发明涉及室内空气净化领域,尤其涉及一种基于静电除尘过滤器的除霾新风系统及其控制方法。
【背景技术】
具有静电除尘过滤器的除霾新风系统可将室外空气经过除霾净化后通过除霾新风系统的送风口送入室内,同时排风口将室内的空气排至室外,从而改善室内空气质量,但实际使用过程中,如果室外湿度较大,将导致静电除尘过滤器的极板无法送电而停止工作,一旦静电除尘过滤器停止工作,又无法判断何时可再次启动静电除尘过滤器,使得除霾新风系统的使用非常不方便,若在室外湿度较大时多次尝试启动静电除尘过滤器,将造成能源浪费。
【发明内容】
本发明要解决的技术问题是克服现有技术的不足,提供一种可根据室外湿度控制静电除尘过滤器的开启或关闭、使用方便且节约能源的基于静电除尘过滤器的除霾新风系统及其控制方法。
为解决上述技术问题,本发明采用以下技术方案:
一种基于静电除尘过滤器的除霾新风系统的控制方法,所述除霾新风系统包括湿度传感器、控制装置、送风管、送风风机、静电除尘过滤器和旁路新风管,所述方法包括以下步骤:
S1:监测室外湿度
Figure PCTCN2015086720-appb-000001
S2:最大湿度设定值为
Figure PCTCN2015086720-appb-000002
Figure PCTCN2015086720-appb-000003
启动静电除尘过滤器,并送新风、经静电除尘过滤器后进入室内,若
Figure PCTCN2015086720-appb-000004
关闭静电除尘过滤器、通过旁路新风管送新风,同时返回步骤S1。
作为上述技术方案的进一步改进:
在进行步骤S1之前,设置设定湿度值
Figure PCTCN2015086720-appb-000005
Figure PCTCN2015086720-appb-000006
所述设定湿度值
Figure PCTCN2015086720-appb-000007
一种基于静电除尘过滤器的除霾新风系统,包括送风口,所述送风口通过送风管与室外空气连通,所述送风管上设有送风风机,所述送风管上设有静电除尘过滤器和旁路新风 管,所述旁路新风管与所述静电除尘过滤器并联,所述旁路新风管、静电除尘过滤器和送风管通过一三通电磁切换阀连通,所述除霾新风系统还包括湿度传感器和控制装置,所述湿度传感器置于室外且与所述控制装置相连,所述控制装置分别与所述三通电磁切换阀以及静电除尘过滤器的启闭控制阀相连。
作为上述技术方案的进一步改进:
所述除霾新风系统还包括排风口,所述排风口通过排风管与室外空气连通,所述排风管上设有排风风机。与现有技术相比,本发明的优点在于:
(1)本发明的基于静电除尘过滤器的除霾新风系统的控制方法,可检测室外湿度
Figure PCTCN2015086720-appb-000008
并将室外湿度
Figure PCTCN2015086720-appb-000009
与设定湿度值
Figure PCTCN2015086720-appb-000010
进行比较以判断是否开启静电除尘过滤器,若室外湿度
Figure PCTCN2015086720-appb-000011
小于或等于设定湿度值
Figure PCTCN2015086720-appb-000012
启动静电除尘过滤器,并送新风、经静电除尘过滤器后进入室内,若室外湿度
Figure PCTCN2015086720-appb-000013
大于设定湿度值
Figure PCTCN2015086720-appb-000014
关闭静电除尘过滤器、通过旁路新风管送新风,并同时继续检测室外湿度
Figure PCTCN2015086720-appb-000015
直至室外湿度
Figure PCTCN2015086720-appb-000016
小于或等于设定湿度值
Figure PCTCN2015086720-appb-000017
后启动静电除尘过滤器,关闭旁路新风管,静电除尘过滤器开始正常除霾净化工作,当室外湿度
Figure PCTCN2015086720-appb-000018
大于设定湿度值
Figure PCTCN2015086720-appb-000019
时,始终不启动静电除尘过滤器,避免不必要的能源浪费,当室外湿度
Figure PCTCN2015086720-appb-000020
小于或等于设定湿度值
Figure PCTCN2015086720-appb-000021
时,自动启动静电除尘过滤器,通过该控制方法使得本发明的基于静电除尘过滤器的除霾新风系统使用非常方便、可靠。
(2)本发明的基于静电除尘过滤器的除霾新风系统,在送风管上设置相互并联的静电除尘过滤器和旁路新风管,并设置湿度传感器和控制装置,湿度传感器置于室外且与控制装置相连,控制装置与静电除尘过滤器的控制阀、旁路新风管的控制阀相连,通过湿度传感器随时监测室外湿度
Figure PCTCN2015086720-appb-000022
并反馈至控制装置,由控制装置将室外湿度
Figure PCTCN2015086720-appb-000023
与设定湿度值
Figure PCTCN2015086720-appb-000024
进行比较,根据比较结果控制静电除尘过滤器的控制阀和旁路新风管的控制阀,若室外湿度
Figure PCTCN2015086720-appb-000025
小于或等于设定湿度值
Figure PCTCN2015086720-appb-000026
启动静电除尘过滤器,并送新风、经静电除尘过滤器后进入室内,开始正常工作,达到对室内空气净化除霾的作用,若室外湿度大于设定湿度值
Figure PCTCN2015086720-appb-000027
关闭静电除尘过滤器并开启旁路新风管,并同时继续检测室外湿度
Figure PCTCN2015086720-appb-000028
直至室外湿度
Figure PCTCN2015086720-appb-000029
小于或等于设定湿度值
Figure PCTCN2015086720-appb-000030
后启动静电除尘过滤器,关闭旁路新风管,开始正常工作,因此,在基于静电除尘过滤器的除霾新风系统的工作过程中,一旦因室外湿度大于设定湿度值
Figure PCTCN2015086720-appb-000031
而使静电除尘过滤器无法正常工作,系统可自动进行室外湿度
Figure PCTCN2015086720-appb-000032
的监测、判断并自动控制静电除尘过滤器的开启或关闭,使用非常方便。
【附图说明】
图1是本发明基于静电除尘过滤器的除霾新风系统的控制方法的流程示意图。
图2是本发明基于静电除尘过滤器的除霾新风系统的结构示意图。
图中各标号表示:
1、送风口;2、排风口;3、送风管;4、排风管;5、送风风机;6、排风风机;7、静电除尘过滤器;8、旁路新风管;9、湿度传感器;10、控制装置;11、三通电磁切换阀。
【具体实施方式】
以下将结合说明书附图和具体实施例对本发明做进一步详细说明。
图1示出了本发明基于静电除尘过滤器的除霾新风系统的控制方法的一种实施例,该除霾新风系统包括湿度传感器9、控制装置10、送风管3、送风风机5、静电除尘过滤器7和旁路新风管8,该控制方法包括以下步骤:
S1:监测室外湿度
Figure PCTCN2015086720-appb-000033
S2:最大湿度设定值为
Figure PCTCN2015086720-appb-000034
Figure PCTCN2015086720-appb-000035
启动静电除尘过滤器,并送新风、经静电除尘过滤器后进入室内,若
Figure PCTCN2015086720-appb-000036
保持静电除尘过滤器7关闭、通过旁路新风管8送新风,同时返回步骤S1。
本实施例中,在进行步骤S1之前,设置设定湿度值
Figure PCTCN2015086720-appb-000037
Figure PCTCN2015086720-appb-000038
本实施例中,所述设定湿度值
Figure PCTCN2015086720-appb-000039
通过检测室外湿度
Figure PCTCN2015086720-appb-000040
并将室外湿度
Figure PCTCN2015086720-appb-000041
与设定湿度值
Figure PCTCN2015086720-appb-000042
进行比较以判断是否开启静电除尘过滤器7:若室外湿度
Figure PCTCN2015086720-appb-000043
小于或等于设定湿度值
Figure PCTCN2015086720-appb-000044
启动静电除尘过滤器7,并送新风、经静电除尘过滤器7后进入室内,若室外湿度
Figure PCTCN2015086720-appb-000045
大于设定湿度值
Figure PCTCN2015086720-appb-000046
关闭静电除尘过滤器7、开启旁路新风管8旁路送新风,并同时继续检测室外湿度
Figure PCTCN2015086720-appb-000047
直至室外湿度
Figure PCTCN2015086720-appb-000048
小于或等于设定湿度值
Figure PCTCN2015086720-appb-000049
后启动静电除尘过滤器7,关闭旁路新风管,静电除尘过滤器开始正常除霾净化工作,当室外湿度
Figure PCTCN2015086720-appb-000050
大于设定湿度值
Figure PCTCN2015086720-appb-000051
时,始终不启动静电除尘过滤器7,避免不必要的能源浪费,当室外湿度
Figure PCTCN2015086720-appb-000052
小于或等于设定湿度值
Figure PCTCN2015086720-appb-000053
时,自动启动静电除尘过滤器7,通过该控制方法使得本发明的基于静电除尘过滤器的除霾新风系统使用非常方便、可靠。
图2示出了本发明基于静电除尘过滤器的除霾新风系统的一种实施例,该基于静电除尘过滤器的除霾新风系统包括送风口1,送风口1通过送风管3与室外空气连通,送风管3上设有送风风机5,送风管3上设有静电除尘过滤器7和旁路新风管8,旁路新风管8与静电除尘过滤器7并联,旁路新风管8、静电除尘过滤器7和送风管3通过一三通电磁切换阀11连通,除霾新风系统还包括湿度传感器9和控制装置10,湿度传感器9置于室外且与控制装置10相连,控制装置10分别与三通电磁切换阀11以及静电除尘过滤器7的启闭控制阀相连,在送风管3上设置相互并联的静电除尘过滤器7和旁路新风管8,并设置湿度传感器9和控制装置10,湿度传感器9置于室外且与控制装置10相连,控制装 置10与静电除尘过滤器7的控制阀、旁路新风管8的控制阀相连,通过湿度传感器9随时监测室外湿度
Figure PCTCN2015086720-appb-000054
并反馈至控制装置10,由控制装置10将室外湿度
Figure PCTCN2015086720-appb-000055
与设定湿度值
Figure PCTCN2015086720-appb-000056
进行比较,根据比较结果控制静电除尘过滤器7的控制阀和旁路新风管8的控制阀,即若室外湿度
Figure PCTCN2015086720-appb-000057
小于或等于设定湿度值
Figure PCTCN2015086720-appb-000058
启动静电除尘过滤器7,并送新风、经静电除尘过滤器7后进入室内,开始正常工作,达到对室内空气净化除霾的作用,若室外湿度
Figure PCTCN2015086720-appb-000059
大于设定湿度值
Figure PCTCN2015086720-appb-000060
通过控制三通电磁切换阀11关闭静电除尘过滤器7并开启旁路新风管8,并同时继续检测室外湿度
Figure PCTCN2015086720-appb-000061
直至室外湿度
Figure PCTCN2015086720-appb-000062
小于或等于设定湿度值
Figure PCTCN2015086720-appb-000063
后,通过控制三通电磁切换阀11启动静电除尘过滤器7并关闭旁路新风管8,开始正常工作,因此,在基于静电除尘过滤器的除霾新风系统的工作过程中,一旦因室外湿度
Figure PCTCN2015086720-appb-000064
大于设定湿度值
Figure PCTCN2015086720-appb-000065
而使静电除尘过滤器7无法正常工作,系统可自动进行室外湿度
Figure PCTCN2015086720-appb-000066
的监测、判断并自动控制静电除尘过滤器7的开启或关闭,使用非常方便。
本实施例中,除霾新风系统还包括排风口2,排风口2通过排风管4与室外空气连通,排风管4上设有排风风机6,设置排风口和排风管4,以及时将室内的受到污染的空气排至室外。
虽然本发明已以较佳实施例揭露如上,然而并非用以限定本发明。任何熟悉本领域的技术人员,在不脱离本发明技术方案范围的情况下,都可利用上述揭示的技术内容对本发明技术方案做出许多可能的变动和修饰,或修改为等同变化的等效实施例。因此,凡是未脱离本发明技术方案的内容,依据本发明技术实质对以上实施例所做的任何简单修改、等同变化及修饰,均应落在本发明技术方案保护的范围内。

Claims (5)

  1. 一种基于静电除尘过滤器的除霾新风系统的控制方法,其特征在于:所述除霾新风系统包括湿度传感器(9)、控制装置(10)、送风管(3)、送风风机(5)、静电除尘过滤器(7)和旁路新风管(8),所述方法包括以下步骤:
    S1:监测室外湿度
    Figure PCTCN2015086720-appb-100001
    S2:最大湿度设定值为
    Figure PCTCN2015086720-appb-100002
    Figure PCTCN2015086720-appb-100003
    启动静电除尘过滤器,并送新风、经静电除尘过滤器后进入室内,若
    Figure PCTCN2015086720-appb-100004
    关闭静电除尘过滤器(7)、通过旁路新风管(8)送新风,同时返回步骤S1。
  2. 根据权利要求1所述的基于静电除尘过滤器的除霾新风系统的控制方法,其特征在于:在进行步骤S1之前,设置设定湿度值
    Figure PCTCN2015086720-appb-100005
    Figure PCTCN2015086720-appb-100006
  3. 根据权利要求1所述的基于静电除尘过滤器的除霾新风系统的控制方法,其特征在于:所述设定湿度值
    Figure PCTCN2015086720-appb-100007
  4. 一种基于静电除尘过滤器的除霾新风系统,包括送风口(1),所述送风口(1)通过送风管(3)与室外空气连通,所述送风管(3)上设有送风风机(5),其特征在于:所述送风管(3)上设有静电除尘过滤器(7)和旁路新风管(8),所述旁路新风管(8)与所述静电除尘过滤器(7)并联,所述旁路新风管(8)、静电除尘过滤器(7)和送风管(3)通过一三通电磁切换阀(11)连通,所述除霾新风系统还包括湿度传感器(9)和控制装置(10),所述湿度传感器(9)置于室外且与所述控制装置(10)相连,所述控制装置(10)分别与所述三通电磁切换阀(11)以及静电除尘过滤器(7)的启闭控制阀相连。
  5. 根据权利要求4所述的基于静电除尘过滤器的除霾新风系统,其特征在于:所述除霾新风系统还包括排风口(2),所述排风口(2)通过排风管(4)与室外空气连通,所述排风管(4)上设有排风风机(6)。
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