KR102260956B1 - A Bus Air Cleaner with a Structure of Having an Electrical Dust Collecting Filter for Removing a Micro Particle - Google Patents

Abstract

The present invention relates to an air purifier for a bus having an electric dust collection filter structure for removing fine dust, and more specifically, for removing fine dust from air circulating in the interior of a bus to cool the interior and remove fine dust It relates to an air purifier for a bus having an electrostatic precipitation filter structure. The air purifier for a bus having an electric dust collection filter structure for removing fine dust includes an inflow control unit 12 for controlling the inflow of air introduced from an indoor space; an electric dust collecting filter 11 for separating fine dust by discharge between the dust collecting electrode and the discharge electrode while passing the air introduced from the inflow control unit 12; a heat exchange module 13 for cooling the air that has passed through the electrostatic precipitation filter 11; and an exhaust induction module 14 for inducing the exhaust of the air cooled by the heat exchange module 13 .

Description

A Bus Air Cleaner with a Structure of Having an Electrical Dust Collecting Filter for Removing a Micro Particle

The present invention relates to an air purifier for a bus having an electric dust collection filter structure for removing fine dust, and more specifically, for removing fine dust from air circulating in the interior of a bus to cool the interior and remove fine dust It relates to an air purifier for a bus having an electrostatic precipitation filter structure.

The interior of various automobiles, including buses, may be purged by the air conditioning equipment, and the temperature may be controlled, and outdoor air may be introduced into the interior during the air conditioning process. Outdoor air is introduced into the room through various filters, but some fine particles may be introduced into the room without being filtered. For example, _{particles having a size of PM 2.5} or less may be introduced into the room without being filtered. have. On the other hand, in the case of a bus with frequent passenger entry and exit, unfiltered outdoor air may flow into the interior. In addition, outdoor air containing pollutants including fine dust may circulate indoors, thereby exposing passengers to the risk of inhalation of pollutants including fine dust. Therefore, it is necessary to create a means to remove pollutants including fine dust from the air circulating inside the bus. Patent Laid-Open No. 10-2005-0014152 discloses a structure for installing an air conditioner for a bus capable of reducing an indoor temperature difference and noise. In addition, Patent Publication No. 10-2004-0039542 discloses a structure of an air conditioner filter for a vehicle having a display means. However, the prior art does not disclose a means capable of filtering the air circulated in the room.

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

Patent Document 1: Patent Publication No. 10-2005-0014152 (Hyundai Motor Co., Ltd., published on February 07, 2005) Air conditioner installation structure for buses Patent Document 2: Patent Publication No. 10-2004-0039542 (Kia Motors Co., Ltd., published on May 12, 2004) Vehicle air conditioner filter structure

An object of the present invention is to provide an air purifier for a bus having an electric dust collection filter structure for removing fine dust capable of removing fine dust from air circulating in the interior of a bus in an electric dust collecting method.

According to a suitable embodiment of the present invention, an air purifier for a bus having an electric dust collection filter structure for removing fine dust includes an inflow control unit for controlling the inflow of air introduced from an indoor space; an electric dust collecting filter that separates fine dust by discharge between the dust collecting electrode and the discharge electrode while passing the air introduced from the inflow control unit; a heat exchange module for cooling the air that has passed through the electrostatic precipitation filter; and an exhaust induction module for inducing the exhaust of the air cooled by the heat exchange module.

According to a suitable embodiment of the present invention, the electrostatic precipitation filter further comprises at least one spray nozzle for the generation of micro water particles.

According to a suitable embodiment of the present invention, it further includes a state analysis unit that detects and analyzes the internal state of the indoor space, and an operation cycle unit that sets an operation cycle according to the analysis result of the state analysis unit.

The air purifier for a bus having an electric dust collection filter structure for removing fine dust according to the present invention removes pollutants including fine dust from the air circulated inside the bus, thereby exposing passengers to the risk of breathing fine dust. to prevent it from happening. In addition, in the air purifier according to the present invention, the electric dust collecting filter is integrally formed with the air purifier and manufactured in a modular structure, so that management is easy. In addition, the air purifier according to the present invention maintains the indoor space of the bus at a predetermined environmental level by controlling the operation according to the pollution level of the indoor space.

1 shows an air purifier for a bus having an electric dust collecting filter structure for removing fine dust according to the present invention.
2 illustrates an embodiment of an electric dust collecting filter applied to an air purifier according to the present invention.
3 shows an embodiment to which the air purifier according to the present invention is applied.
4 shows an embodiment of the operation process of the air purifier according to the present invention.

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

1 shows an embodiment of an air purifier for a bus having an electric dust collection filter structure for removing fine dust according to the present invention.

The air purifier according to the present invention may have a function of removing fine dust from the air circulated inside the bus, and may be installed as an independent structure or may be installed in combination with an air conditioner installed inside the bus. Alternatively, it may be installed in combination with other circulation equipment for air circulation in another bus.

Hereinafter, the present invention will be described as a structure combined with an air conditioner installed inside the bus, but the present invention is not limited thereto, and the air purifier may be installed in various forms to remove fine dust from the air circulated inside the bus.

Referring to FIG. 1 , an air purifier for a bus having an electric dust collection filter structure for removing fine dust includes an inflow control unit 12 for controlling the inflow of air introduced from an indoor space; an electric dust collecting filter 11 for separating fine dust by discharge between the dust collecting electrode and the discharge electrode while passing the air introduced from the inflow control unit 12; a heat exchange module 13 for cooling the air that has passed through the electrostatic precipitation filter 11; and an exhaust induction module 14 for inducing the exhaust of the air cooled by the heat exchange module 13 .

The air purifier according to the present invention may be applied to a vehicle used by a large number of people, for example, may be applied to a vehicle such as a city vehicle bus or a highway bus, but is not limited thereto, and outdoor air flows in during the internal air circulation process. It can be applied to a variety of vehicles and is not limited by the type of vehicle. In addition, the air purifier may be installed as an independent module or may have various structures capable of cooling internal air by being combined with a bus air conditioner, and may be operated by an engine or a battery of a vehicle.

Air inside the vehicle may be introduced into the electrostatic precipitation filter 11 through the inflow control unit 12, and the inflow control unit 12 includes a filter that removes pollutants in the form of particles with a large diameter from the incoming air. may include In addition, it is possible to adjust the temperature or humidity of the incoming air in a range of a certain level. The inflow control unit 12 guides the air flowing in from the room through the first induction conduit G1 to the electrostatic precipitation filter 11 . In addition, various types of fine dust may be removed from the air while passing through the electric dust collecting filter 11 . For example, the electrostatic precipitation filter 11 is disposed inside the dust collecting electrode and the dust collecting electrode, at least a part of which has a cylindrical shape through which air can flow, and maintains a predetermined voltage difference with the dust collecting electrode and generates a discharge with the dust collecting electrode. can be made with The dust collecting electrode and the discharge electrode may be maintained at a potential difference of, for example, 500 to 50 kV, whereby electrons are generated by corona discharge, and the fine particles may have a negative charge, thereby being collected on the dust collecting electrode. The air from which the fine particles are removed is guided to the heat exchange module 13 such as the evaporator through the two induction conduits G2 to be heat exchanged. Air cooled while being heat exchanged in the heat exchange module 13 may be guided by the three induction conduits G3 and transferred to the exhaust induction module 14 . The exhaust induction module 14 may adjust the temperature or humidity of the exhaust air within a predetermined range. In addition, a charge removal unit 15 may be disposed in the discharge induction module 14 if necessary. The exhaust induction module 14 may have a plate shape in which a plurality of holes installed in the air flow path are formed, and may be maintained at a positive voltage. Thereby, the electric charge contained in the flowing air can be removed. In this way, fine dust may be removed by circulating the internal air of the bus, and the operation of the electric dust filter 11 may be adjusted according to the level of fine dust contained in the room.

The air purifier can be operated in a variety of ways and is not limited to the embodiments presented.

2 illustrates an embodiment of an electric dust collecting filter applied to an air purifier according to the present invention.

2, the electrostatic precipitation filter 11 includes a plurality of cylindrical dust collecting electrodes 22_1 to 22_N and a plurality of dust collecting electrodes (22_1 to 22_N) fixed by 1 and 2 fixing plates 21a and 21b disposed to face each other. Discharge electrodes 24_1 to 24_N fixed inside each of 22_1 to 22_N may be included. The first and second fixing plates 21a and 21b may have a rectangular plate shape, and a plurality of fixing holes may be formed to fix both ends of the cylindrical dust collecting electrodes 22_1 to 22_N. Each of the dust collecting electrodes 22_1 to 22_N may have various shapes, but may preferably have a hollow cylindrical shape, and the discharge electrodes 24_1 to 24_N extend along the longitudinal centerline of the dust collecting electrodes 22_1 to 22_N. It can be a linear structure. 1 and 2 fixing plates 21a and 21b may be made of a conductive material such as metal, and 1 and 2 insulating fixing plates 23a and 23b of an insulator material may be coupled to 1 and 2 fixing plates 21a and 21b. have. In addition, each of the discharge electrodes 24_1 to 24_N may be fixed by the first and second insulating fixing plates 23a and 23b. Specifically, one end of the plurality of discharge electrodes 24_1 to 24_N may be fixed to the linear fixing members 25_1 to 25_K made of a conductive material, and each of the linear fixing members 25_1 to 25_K is one insulating fixing plate 23a. It can be fixed to the linear fixing groove formed in the. In addition, a through hole through which the other end of each of the discharge electrodes 24_1 to 24_N passes may be formed in the second insulating fixing plate 23b. A plurality of induction holes for the flow of air are formed in the 1 and 2 insulating fixing plates 23a and 23b, or the plurality of discharge electrodes 24_1 to 24_N are formed of the respective dust collecting electrodes 22_1 to 22_N to allow air flow. It can be fixed inside.

The dust collecting electrodes 22_1 to 22_N and the discharge electrodes 24_1 to 24_N may be fixed to the installation frame F, and the installation frame F may be made of an independent module structure that can be coupled to a bus air conditioner. The electrostatic precipitation filter 11 may be made in various sizes, and may be disposed at various positions in an air flow path formed inside the air purifier. In addition, if necessary, micro water particles are sprayed inside the dust collecting electrodes 22_1 to 22_N to promote the collection of fine dust.

The dust collecting electrode 22_1 may have a hollow cylindrical shape, and a linear discharge electrode 24_1 may be fixed inside the dust collecting electrode 22_1 . An upper end of the discharge electrode 24_1 may be fixed to the induction tab 273 , and the induction tab 273 may form a part of the linear fixing member 25_1 or may be coupled to the linear fixing member 25_1 . The fluid flow unit 272 may be disposed along the inside of the dust collecting electrode 22_1 , and the fluid may flow along the fluid flow unit 272 . And a fluid supply conduit 271 may be connected to the fluid flow unit 272 . A water supply valve 26a or a compression supply valve 26b may be coupled to the fluid supply conduit 271 , and a linear discharge through the fluid induction unit 272 by adjustment of the respective supply valves 26a, 26b Water or compressed air may be supplied to the at least one discharge nozzle 241_1 to 241_M disposed on the electrode 24_1 . Each of the discharge nozzles 241_1 to 241_M may extend in a direction perpendicular to the extending direction of each dust collecting electrode 24_1 . Each of the discharge nozzles 241_1 to 241_M may be disposed separately from each other, and may have a discharge nucleus function to increase discharge efficiency. A spray tip 241a may be disposed at the end of each of the discharge nozzles 241_1 to 241_M, and water and compressed air are sprayed through the spray tip 241a to generate micro water particles. The micro water particles may be sprayed as needed, and may have a function of controlling the humidity of the air flowing along the dust collecting electrode 22_1.

The discharge nozzles 241_1 to 241_M may have a function of washing fine particles collected inside the dust collecting electrode 22_1 . When the bus air conditioner is not operating, water from the discharge nozzles 241_1 to 241_M is sprayed onto the inner wall of the dust collecting electrode 22_1, and the collected fine dust can be washed and dropped downward, and the dust collecting electrode 22_1 The collection case 28 formed below may be collected, and the upper portion of the collection case 28 may have an inclined cone shape, and a discharge passage may be formed at the bottom of the collection case 28 . A moving wall 28a may be formed in the interior of the collection case 28, the moving wall 28a is moved downward in the washing process, and the moving wall 28a is moved upward in the operation of the electrostatic precipitation filter 11. can be located in And for washing, the moving wall 28a is moved downward, whereby the upper part of the collecting case 28 is opened, and water and washed fine substances can be collected into the collecting case 28 . When the cleaning of the fine dust collected inside the dust collecting electrode 22_1 is completed, the moving wall 28a moves upward, and thereby the collecting case 28 may be closed. And high-temperature dry air is sprayed through the discharge nozzles 241_1 to 241_M to dry the inside of the dust collecting electrode 22_1, and the dust collecting electrode 22_1 or the discharge electrode 24_1 can be made in various structures and presented. Examples are not limited.

3 shows an embodiment to which the air purifier according to the present invention is applied.

Referring to FIG. 3 , the refrigeration modules 32a and 32b may be disposed on the ceiling 31 of the bus, and the inlet IN is formed on the inner surface of the ceiling 31 so that the indoor air inside the bus is filtered through an electrostatic precipitation filter. It may be guided to the refrigeration modules 32a and 32b via (11a). Fine dust is removed from the air introduced by the electrostatic precipitation filter 11a, and the purified air is guided to the cooling modules 32a and 32b for heat exchange. And the cooled air may be guided back to the inside of the bus through the outlets 34a and 34b by the induction fans 33a and 33b. If necessary, the electric dust collecting filters 11b and 11k are disposed at the outlets 34a and 34b to additionally remove fine dust, but this is not required. The air purifier may have various structures according to the structure of the bus, and the electrostatic precipitation filters 11a, 11b, and 11k may be appropriately disposed according to the structure of the bus or the structure of the air purifier.

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

Referring to FIG. 4 , the air purifier includes a compressor 42 for compressing the refrigerant; Condenser 43 for condensing the compressed refrigerant; and an expansion valve 44 for supplying a refrigerant to the evaporator for expansion. Heat is exchanged in the evaporator by the heat of evaporation of the refrigerant expanded through the expansion valve 44 so that the air in the room 41 can be cooled. The air in the room 41 may be guided to the evaporator through the inlet IN, and an electric dust collecting filter 11a may be disposed in a path leading to the evaporator. Fine dust is removed from the electric dust filter 11a, and the cooling air cooled by heat exchange in the evaporator may be guided to the interior space of the bus through the outlet OUT. And, if necessary, the electrostatic precipitation filter 11a may be disposed at the outlet OUT, but this is not required. The induction space 411 for air circulation in the room 41 may be formed on the ceiling of the bus, and the electric dust collecting filters 11a and 11b may be disposed in various positions of the induction space 411, and the presented embodiment is not limited to

A detection sensor 412 may be disposed in the interior 41 of the bus, and the detection sensor 412 may detect an air temperature, humidity, or a similar air condition in the interior 41 . The level of fine particles contained in the air may be detected by the detection sensor 412 , and the presence or absence of contaminants may be detected. For example, the detection sensor 412 may include a particle counter and detect the air level in the room 41 by means of the particle counter. The information detected by the detection sensor 412 may be transmitted to the condition analysis unit 47 , and the air level in the room 41 may be analyzed by the condition analysis unit 47 , and the electrostatic precipitation filter 11a, It can be determined whether 11b) works or not. The analysis result may be transmitted to the operation cycle unit 471 . The operation of the electrostatic precipitation filters 11a and 11b may increase the temperature of the flowing air, thereby reducing the cooling efficiency. Therefore, the electrostatic precipitation filter needs to be operated in a controlled fashion. The operating cycle unit 471 may set the operating cycle so that the influence on the cooling efficiency is minimized, and may set the operating cycle so that the temperature rise is minimized. The operation period may be transmitted to the filter control unit 46, and the filter control unit 46 may control the operation of the electrostatic precipitation filter according to the operation period. Operation information of the drive control unit 45 that regulates the operation of the electrostatic precipitation filter may be transmitted to the filter control unit 46, and the filter control unit 46 is configured to respond to the operation information and the operation period of the drive control unit 45. Accordingly, the filter control unit 46 may control the operation of the electrostatic precipitation filter.

The electrostatic precipitation filter may be disposed in various positions and may be operated in various methods suitable for removing fine dust, and is not limited to the presented embodiment.

The air purifier having an electric dust collection filter structure for removing fine dust according to the present invention removes pollutants including fine dust from the air circulated inside the bus, thereby preventing passengers from being exposed to the risk of breathing fine dust make it possible In addition, in the air purifier according to the present invention, the electric dust collecting filter is integrally formed with the air purifier and manufactured in a modular structure, so that management is easy. In addition, the air purifier according to the present invention maintains the indoor space of the bus at a predetermined environmental level by controlling the operation according to the pollution level of the indoor space.

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

11, 11a, 11b, 11k: electrostatic precipitation filter 12: inflow control unit
13: heat exchange module 14: exhaust induction module
15: charge removal units 21a, 21b: 1, 2 fixing plates
22_1 to 22_N: dust collecting electrodes 23a, 23b: 1, 2 insulating fixing plate
24_1 to 24_N: discharge electrode 25_1 to 25_K: linear fixing member
26a: water supply valve 26b: compression supply valve
28: collection case 28a: moving wall
31: ceiling 32a, 32b: refrigeration module
33a, 33b: induction fan 34a, 34b: outlet
41: indoor 42: compressor
43: condenser 44: expansion valve
45: drive control unit 46: filter control unit
47: condition analysis unit 241a: spray tip
241_1 to 241_M: discharge nozzle 271: fluid supply conduit
272: fluid flow unit 273: guide tap
411: guided space 412: detection sensor
471: operating cycle unit F: installation frame
G1, G2, G3: 1, 2, 3 guide conduit IN: inlet
OUT: outlet

Claims (2)

an inflow control unit 12 for regulating the inflow of air inside the vehicle;
an electric dust collecting filter 11 for separating fine dust by discharge between the dust collecting electrode and the discharge electrode while passing the air introduced from the inflow control unit 12;
a heat exchange module 13 for cooling the air that has passed through the electrostatic precipitation filter 11;
While inducing the discharge of the cooled air by the heat exchange module 13, a plurality of holes are formed in a plate shape and a discharge induction module 14 that is maintained at a positive voltage; and;
It includes a plurality of discharge nozzles (241_1 to 241_M) disposed on the discharge electrode, the spray tip (241a) is disposed at the end to spray micro water particles onto the inner wall surface of the dust collecting electrode,
The dust collecting electrode has a hollow cylinder shape, a linear discharge electrode is fixed inside the dust collecting electrode, and air can flow into the cylindrical shape of the dust collecting electrode. air cleaner. The operating cycle of the electrostatic precipitation filter (11) according to claim 1, wherein the condition analysis unit (47) for detecting and analyzing the level of fine particles contained in the air of the indoor space of the bus and the analysis result of the condition analysis unit (47) An air purifier for a bus having an electric dust collection filter structure for removing fine dust further comprising an operation cycle unit 471 for setting a.

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