KR20200043653A - An Apparatus for Opening and Closing a Bus Air Cleaner Capable of Removing Micro Particles with an Electrical Dust Collecting Function - Google Patents

Abstract

The present invention relates to an opening and closing device of an electrical dust collecting air purifier for a bus air conditioner in order to remove fine dust. Specifically, the present invention relates to an opening and closing device of an electrical dust collecting air purifier for a bus air conditioner in order to remove fine dust, which is capable of removing fine dust in air introduced through an air conditioner from the inside of a bus. The opening and closing device of an electrical dust collecting air purifier for a bus air conditioner in order to remove fine dust, comprises: introduction modules (11, 11a) capable of introducing air; and an electrical dust collecting module (12) for inducing the air introduced through the introduction modules (11, 11a). At least a part of the introduction modules (11, 11a) is opened to confirm a flowing state of a coolant.

Description

An Apparatus for Opening and Closing a Bus Air Cleaner Capable of Removing Micro Particles with an Electrical Dust Collecting Function}

The present invention relates to an opening and closing device for an electric dust collecting air cleaner for a bus air conditioner for removing fine dust, and specifically, an electric dust collecting air for a bus air conditioner for removing fine dust capable of removing fine dust from air flowing into the air conditioner from inside the bus. It relates to the opening and closing device of the purifier.

The interior of various automobiles, including buses, can be regulated while being purified by the air conditioning equipment, and outdoor air can be introduced into the air during the air conditioning process. The outdoor air enters the room through various filters, but some fine particles cannot be filtered and can enter the room. For example, particles having a size of PM _2.5 or less can enter the room without being filtered. have. On the other hand, in the case of a bus with frequent entry and exit, unfiltered outdoor air may be introduced into the room. In addition, outdoor air containing pollutants including fine dust may be circulated indoors, whereby a passenger may be exposed to the risk of inhalation of pollutants including fine dust. Therefore, there is a need to create a means to remove contaminants, including fine dust, from the air circulating inside the bus. Patent Publication No. 10-2005-0014152 discloses a structure for installing an air conditioner for a bus capable of reducing the difference in room temperature and noise. In addition, Patent Publication No. 10-2004-0039542 discloses a vehicle air conditioner filter structure having a display means. Air circulated in the interior of the vehicle may be introduced into the interior of the air cleaner through the air inlet means installed in the bus, and it is advantageous that fine dust is removed in the step of introducing air. However, the prior art does not disclose such a technique.

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

Prior art 1: Patent Publication No. 10-2005-0014152 (Hyundai Motor Co., Ltd., published on February 7, 2005) Bus air conditioner installation structure Prior Art 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 opening and closing device for an electric dust collector air purifier for a bus air conditioner for removing fine dust capable of removing fine dust from air circulated inside the bus.

According to a preferred embodiment of the present invention, the opening and closing device of the electrostatic precipitating air cleaner for the bus air conditioner for removing fine dust includes an inflow module capable of introducing air; And an electrostatic dust collecting module through which air introduced from the inflow module is induced, and a flow state of the refrigerant may be confirmed by opening at least a part of the inflow module.

According to another suitable embodiment of the invention, the inlet module is a fixed inlet module maintained in a fixed state; And an opening / closing inflow module that can be opened and closed with respect to the fixed inflow module.

According to another suitable embodiment of the present invention, the electrostatic precipitator module is composed of a plurality of discharge electrodes and a plurality of precipitating electrodes.

The opening and closing device according to the present invention prevents passengers from being exposed to dangers due to breathing of fine dust by removing contaminants including fine dust from air circulated inside the bus. In addition, the opening and closing device according to the present invention is made of a separate opening and closing structure so that the operating state of the air cleaner can be confirmed. In addition, the opening and closing device according to the present invention allows the operation of the air purifier to be properly adjusted according to the inflow state of fine dust.

Figure 1 shows an embodiment of the application structure of the opening and closing device of the electrostatic air cleaner for the bus air conditioner for removing fine dust according to the present invention.
Figure 2 shows an embodiment of the opening and closing device according to the present invention.
Figure 3 shows an embodiment of a dust collecting module applied to the opening and closing device according to the present invention.
4a and 4b show an embodiment of the operation process of the switching device according to the present invention.

The present invention will be described in detail below with reference to the embodiments presented in the accompanying drawings, but the embodiments are intended 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, and are not described repeatedly unless necessary for understanding of the invention, and well-known components are briefly described or omitted, but the present invention It should not be understood as being excluded from the embodiment.

Figure 1 shows an embodiment of the application structure of the opening and closing device of the electrostatic air cleaner for the bus air conditioner for removing fine dust according to the present invention.

Referring to FIG. 1, an opening / closing device for an electric dust collecting air purifier for a bus air conditioner installed in a bus for removing fine dust for introducing air into the air purifier includes inflow modules 11 and 11a capable of introducing air; And an electric dust collecting module 12 through which air introduced from the inflow modules 11 and 11a is induced, and a flow state of the refrigerant can be confirmed by opening at least a part of the inflow modules 11 and 11a.

The opening and closing device according to the present invention can be coupled to an air purifier having a function of removing fine dust from air circulated inside the bus. For example, the switchgear may be combined with an air conditioner installed inside the bus, but is not limited thereto, and may be coupled to various types of air purifiers.

The opening and closing device according to the present invention may be applied to a vehicle used by a large number of people, and may be applied to a vehicle such as, for example, a city vehicle bus or a highway bus, but is not limited thereto. 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 the air in the air in combination with a bus air conditioner, and may be operated by an engine or battery of a vehicle.

The air purifier or the bus air conditioner may be installed in a structure embedded in the ceiling of the bus, and the switchgear may be coupled to the bus ceiling and connected to the air purifier or the bus air conditioner. The inflow modules 11 and 11a are installed on the ceiling inside the bus and have a function of introducing air inside the bus. The air inside the bus may be introduced into the ceiling through the inflow modules 11 and 11a and led to the bus air conditioner. The air induced by the bus air conditioner may be discharged to the outside through the discharge passages 161 and 162 after heat exchange is performed by a heat exchanger 13 such as an evaporator. The inlet modules 11 and 11a include a fixed inlet module 11 maintained in a fixed state; And an opening / closing inflow module 11a that can be opened and closed with respect to the fixed inflow module 11. The fixed inlet module 11 and the opening / closing inlet module 11a may be made of a structure connected to each other, and may be connected to each other by, for example, a hinge or a similar rotatable connector. The fixed inlet module 11 and the opening / closing inlet module 11a may be made integrally, and may be arranged side by side, for example, while forming an air inlet passage inside one installation frame. The installation frame can be firmly coupled to the bus ceiling, and the fixed inlet module 11 can be formed integrally with the installation frame or can be made independently and securely coupled to the installation frame by bolts, screws or similar coupling means. . And the opening and closing inflow module 11a may be coupled to be movable relative to the fixed inflow module 11. The opening / closing inflow module 11a may have a function of checking the operation state of the air conditioner or setting the operation state in the state where the fixed inflow module 11 is fixed. Specifically, a sight glass 15 for checking the state of the refrigerant is installed at a position adjacent to the fixed inlet module 11, an information window for checking the operating state is installed, or a setting for setting the operating state Means can be arranged. The opening / closing inflow module 11a may have a function to make such confirmation or setting simple. The opening / closing inflow module 11a may be made of a structure capable of confirming or manipulating the air conditioner installed on the bus ceiling by a movable structure or an opening / closing structure with respect to the fixed inflow module 11. For example, the opening / closing inflow module 11a may be coupled to the installation frame or the fixed inflow module 11 in a rotational or sliding manner, whereby a part of the ceiling where the air conditioner or air purifier is installed may be opened and closed. The opening / closing inflow module 11a can be coupled to the fixed inflow module 11 or the installation frame in a variety of ways, and the present invention is not limited thereto.

1, the inlet modules 11 and 11a may form part of the air filter system FS, the air filter system FS may be installed inside the bus ceiling, and the inlet air IN ) May be introduced into the inlet modules 11 and 11a and led to the electrostatic precipitator module 12. The electrostatic precipitator module 12 may have a fine dust filter function to remove fine dust from the air flowing into the inlet modules 11 and 11a. For example, the electrostatic precipitator module 12 may be composed of a precipitating electrode and a discharging electrode that are electrically separated from each other, and, for example, the microparticles contained in air introduced by corona discharge may be charged to be collected by the precipitating electrode. . The dust collecting electrode and the discharge electrode may be made of various structures capable of collecting fine dust, and are not limited to the presented embodiments. The bus air conditioner includes a heat exchanger 13 such as an expander or evaporator; And a cooling module 14 such as a compressor or a condenser that flows refrigerant through the refrigerant line CL to the heat exchanger 13. In addition, a see-through window 15 capable of checking the state of the refrigerant may be installed in the refrigerant line CL. The condition of the refrigerant flowing through the air filter system FS needs to be checked regularly or as necessary, and the condition of the refrigerant can be checked through the see-through window 15. In order to check the state of the refrigerant through the see-through window 15, the open / close inlet module 11a is opened, and the see-through window 15 can be arranged at a position that can be visually confirmed while the open / close inlet module 15a is open. have. The opening and closing of the inflow module 11a is made of a structure that can be opened and closed, so that the refrigerant can be easily identified through the see-through window 15. The inlet modules 11 and 11a may be made of various structures capable of flowing air and are not limited to the presented embodiments.

Figure 2 shows an embodiment of the opening and closing device according to the present invention.

Referring to FIG. 2, the inflow modules 11 and 11a may be installed on the ceiling surface 21 of the bus, an installation frame 22 may be formed on the ceiling surface 21, and an installation frame 22 may be provided. Inlet module 11 may be installed. An air conditioner may be installed inside the ceiling, and the inflow module 11 may be disposed at a position where the see-through window 15 formed in the refrigerant line CL can be identified. The inflow modules 11 and 11a may have the front surface forming the same plane as the ceiling surface 21 or a small approximate plane capable of height difference. The fixed inflow module 11 may be securely fixed to the installation frame 22, and the open / close inflow module 11a may be rotatably coupled to the fixed inflow module 11 by a rotating connector 23. The fixed inflow module 11 and the opening and closing inflow module 11a may be made of the same similar structure, and the opening and closing inflow module 11a is rotated relative to the rotating connector 23 or coupled to the installation frame 22, It can be separated from the installation frame 22. A locking means 221 that is releasable at one end of the installation frame 22 may be installed, and the opening / closing inflow module 11a may be locked by the locking means 221 or unlocked. The inflow modules 11 and 11a may have a box shape as a whole, and a plurality of adjustment blades 112 that can be adjusted in the direction of the coupling frame 111 and the coupling frame 111 coupled to the installation frame 22 ) May be disposed. Each of the adjustment blades 112 may have a square plate shape, and a plurality of adjustment blades 112 are installed inside the coupling rim 111 so that the amount of air introduced is controlled.

The inlet modules 11 and 11a may be installed in various locations that can introduce air inside the bus and lead to a heat exchanger, and are not limited to the presented embodiments. In addition, an electrostatic precipitator module may be coupled to the inlet modules 11 and 11a.

Figure 3 shows an embodiment of a dust collecting module applied to the opening and closing device according to the present invention.

Referring to FIG. 3, the electrostatic precipitator module includes a plurality of precipitating electrodes 32_1 to 32_N and a plurality of precipitating electrodes 32_1 to 32_N in a cylinder shape fixed by 1 and 2 fixing plates 31a and 31b disposed to face each other. ) May include discharge electrodes 34_1 to 34_N fixed inside each of the. The 1 and 2 fixing plates 31a and 31b may have a rectangular plate shape, and a plurality of fixing holes may be formed to fix both ends of the cylinder-shaped dust collecting electrodes 32_1 to 32_N. Each of the dust collecting electrodes 32_1 to 32_N may have various shapes, but may preferably be a hollow cylinder shape, and the discharge electrodes 34_1 to 34_N extend along the longitudinal center line of the dust collecting electrodes 32_1 to 32_N. Can be a linear structure. 1, 2 fixing plate (31a, 31b) may be a conductive material such as metal, 1, 2 fixing plate (31a, 31b) of the insulating material, 1, 2 insulating fixing plate (33a, 33b) may be combined have. In addition, each of the discharge electrodes 34_1 to 34_N may be fixed by the 1 and 2 insulating fixing plates 33a and 33b. Specifically, one end of the plurality of discharge electrodes 34_1 to 34_N may be fixed to the linear fixing members 35_1 to 35_K of the conductive material, and each linear fixing member 35_1 to 35_K may include one insulating fixing plate 33a It can be fixed to the linear fixing groove formed in. In addition, a through hole through which the other end of each discharge electrode 34_1 to 34_N is penetrated may be formed in the two insulating fixing plates 33b. A plurality of induction holes for the flow of air are formed in the 1 and 2 insulating fixing plates 33a and 33b, or the plurality of discharge electrodes 34_1 to 34_N of the respective dust collecting electrodes 32_1 to 32_N are configured to allow air flow. It can be fixed inside.

The dust collecting electrodes 32_1 to 32_N and the discharge electrodes 34_1 to 34_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 the bus air conditioner. The electrostatic precipitator module can be made in a variety of sizes and can be placed at various locations in the air flow path formed inside the air purifier. In addition, if necessary, micro-water particles are sprayed inside the dust collecting electrodes 32_1 to 32_N, so that the collection of fine dust can be promoted.

The dust collecting electrode 32_1 may have a hollow cylinder shape, and a linear discharge electrode 34_1 may be fixed inside the dust collecting electrode 32_1. The upper end of the discharge electrode 34_1 may be fixed to the induction tab 373, and the induction tab 373 may form part of the linear fixing member 35_1 or may be coupled to the linear fixing member 35_1. The fluid flow unit 372 may be disposed along the interior of the dust collecting electrode 32_1, and the fluid may flow along the fluid flow unit 372. In addition, a fluid supply conduit 371 may be connected to the fluid flow unit 372. A water supply valve 36a or a compressed supply valve 36b may be coupled to the fluid supply conduit 371, and a linear discharge through the fluid flow unit 372 by adjustment of each supply valve 36a, 36b Water or compressed air may be supplied to at least one discharge nozzle 341_1 to 341_M disposed on the electrode 34_1. Each discharge nozzle 341_1 to 341_M may extend in a direction perpendicular to the extending direction of each dust collecting electrode 32_1. Each of the discharge nozzles 341_1 to 341_M may be disposed separately from each other, and may have a discharge nuclear function to increase discharge efficiency. A spray tip 341a may be disposed at the end of each discharge nozzle 341_1 to 341_M, and micro water particles may be generated while water and compressed air are sprayed through the spray tip 341a. The micro water particles may be sprayed as necessary, and may have a function of controlling the humidity of air flowing along the dust collecting electrode 32_1.

The discharge nozzles 341_1 to 341_M may have a function of washing fine particles collected inside the dust collecting electrode 32_1. When the bus air conditioner does not work, water is sprayed from the discharge nozzles 341_1 to 341_M to the inner wall surface of the dust collecting electrode 32_1, and the collected fine dust can be washed and dropped downward, and the dust collecting electrode 32_1 The collection case 38 formed at the bottom may be collected, the upper portion of the collection case 38 may be inclined horn shape, and a discharge passage may be formed at the bottom of the collection case 38. A moving wall 38a may be formed inside the collection case 38, the moving wall 38a is moved downward in the washing process, and in the operation of the electrostatic precipitating module, the moving wall 38a may be located upward. You can. And for cleaning, the moving wall 38a is moved downward, whereby the upper part of the collecting case 38 is opened, and water and washed fine materials can be collected into the collecting case 38. When the cleaning of the fine dust collected inside the dust collecting electrode 32_1 is completed, the moving wall 38a is moved upward, whereby the collecting case 38 can be closed. And the high-temperature dry air may be sprayed through the discharge nozzles 341_1 to 341_M to dry the inside of the dust collecting electrode 32_1, and the dust collecting electrode 32_1 or the discharge electrode 34_1 may be made of various structures and are presented It is not limited to the embodiment.

4a and 4b show an embodiment of the operation process of the switching device according to the present invention.

4A and 4B, the measurement housing 49 may be installed at an inlet module or other suitable location where air inside the bus is introduced, and the detection unit 48 may be disposed at the entrance of the measurement housing 49. have. The detection unit 48 may include detection sensors PS and display means 481 and 482. The detection sensor PS may be, for example, a particle counter or various sensors capable of detecting microparticles similar thereto. The detection sensor PS may be a sensor capable of measuring fine dust (PM _2.5 ) or ultra fine dust (PM ₁₀ ), and each display means 481 and 482 display the concentration of fine dust or ultra fine dust. can do. Each display means 481 and 482 may include a plurality of labels indicating different concentrations. For example, each of the display means 481 and 482 may include blue, green, yellow, and red labels, and the label may be emitted depending on the concentration of fine dust or ultrafine dust. The display means may additionally have an alarm function of the cleaning cycle of the air purifier or air conditioner. As described above, the electrostatic precipitator module may be installed in the switchgear, and the operation state of the electrostatic precipitator module may be detected by the detection unit 48. For example, when it is detected that an excessive current flows through the electrostatic precipitator module or air conditioner, the power supplied to the electrostatic precipitator module or air conditioner may be cut off. The detection unit 48 can have operation data according to each concentration level, and can transmit operation data to the status analysis unit 47, whereby the electrostatic dust collecting module can be operated.

Referring to Figure 4a, the air cleaner is a compressor 42 for the compression of the refrigerant; A condenser 43 for condensing the compressed refrigerant; And an expansion valve 44 that expands by supplying a refrigerant to the evaporator. Heat exchanged in the evaporator by the heat of evaporation of the refrigerant that has been expanded through the expansion valve 44 may cool the air in the room. The air in the room may be led to the evaporator through the intake port, and the electrostatic precipitator module 12 may be disposed in a path leading to the evaporator. The fine dust is removed from the electrostatic precipitator module 12, and the cooling air cooled by heat exchange in the evaporator may be guided to the interior space inside the bus through the discharge passages 161 and 162. In addition, the electrostatic precipitator module 12 may be disposed in the discharge passages 161 and 162 as necessary, but is not required. An induction space 411 for indoor air circulation may be formed on the ceiling of the bus, and the electrostatic precipitator module 12 may be disposed at various positions of the induction space 411, and is not limited to the presented embodiments.

An environment sensor 412 for detecting a condition may be disposed in the interior of the bus, and the air temperature, humidity, or similar air condition in the room may be detected by the environment sensor 412. The indoor condition detected by the environmental sensor 412 can be transmitted to the status analysis unit 47 together with information on the fine dust concentration detected by the detection unit 48 described above, and the status analysis unit 47 By this, the air level in the room can be analyzed, and whether the electrostatic precipitator module 12 is operated can be determined. The analysis results can be sent to the operation cycle unit 471. The operation of the electrostatic precipitator module 12 may increase the temperature of the flowing air, thereby reducing cooling efficiency. Therefore, the electrostatic precipitator filter needs to be operated in a regulated form. The operation cycle unit 471 may set the operation cycle so that the effect on the cooling efficiency is minimal, and the operation cycle may be set so that the temperature rise is minimal. The operation cycle can be transmitted to the filter control unit 46, and the filter control unit 46 can control the operation of the electrostatic precipitating filter according to the operation cycle. The operation information of the drive control unit 45 that regulates the operation of the electrostatic precipitating filter can be transmitted to the filter control unit 46, and the filter control unit 46 is driven by the drive information and the operation cycle of the drive control unit 45. Accordingly, the filter control unit 46 can control the operation of the electrostatic precipitating filter. The operation of the electrostatic precipitator module 13 can be controlled in various ways and is not limited to the presented embodiment.

The opening and closing device for a bus air conditioner according to the present invention prevents passengers from being exposed to dangers due to breathing of fine dust by removing contaminants including fine dust from air circulated inside the bus. In addition, the opening and closing device according to the present invention is made of a separate opening and closing structure so that the operating state of the air cleaner can be confirmed. In addition, the opening and closing device according to the present invention allows the operation of the air purifier to be properly adjusted according to the inflow state of fine dust.

The present invention has been described in detail with reference to the presented embodiments, but 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 embodiments. . The present invention is not limited by such modified and modified inventions, but is limited by the appended claims.

11: fixed inlet module 11a: open and close inlet module
12: electrostatic precipitator module 13: heat exchanger
14: Cooling module 15: Perspective window
21: ceiling side 22: mounting frame
23: rotary connector 31a, 31b: 1, 2 fixed plate
32_1 to 32_N: Dust collection electrodes 33a, 33b: 1, 2 insulation fixing plates
34_1 to 34_N: discharge electrodes 35_1 to 35_K: linear fixing members
36a: water supply valve 36b: compression supply valve
38: collection case 38a: movable wall
42: compressor 43: condenser
44: expansion valve 45: drive control unit
46: filter control unit 47: condition analysis unit
48: detection unit 49: measuring housing
111: mating rim 112: adjustable blade
161, 162: discharge passage 221: locking means
341_1 to 341_M: discharge nozzle 341a: spray tip
371: fluid supply conduit 372: fluid flow unit
373: guide tab 411: guide space
412: environmental sensor 471: operating cycle unit
481, 482: display means CL: refrigerant line
F: Installation frame FS: Air filter system
PS: Detection sensor IN: Inlet air

Claims (3)

In the switchgear installed on the bus for introducing air to the air cleaner,
Inlet modules (11, 11a) capable of introducing air; And
And an electrostatic precipitator module (12) through which air introduced from the inlet modules (11, 11a) is induced,
Opening and closing device of the electric dust collecting air cleaner for a bus air conditioner for removing fine dust, characterized in that the flow state of the refrigerant can be confirmed by opening at least a part of the inflow modules (11, 11a). The method according to claim 1, Inlet module (11, 11a) is a fixed inlet module 11 is maintained in a fixed state; And an opening / closing inflow module 11a that can be opened and closed with respect to the fixed inflow module 11. The method according to claim 1, Electrostatic dust collecting module 12 is a plurality of discharge electrodes (34_1 to 34_N) and a plurality of dust collecting electrodes (32_1 to 32_N), characterized in that the dust collector of the bus air conditioner electrostatic dust collector air cleaner for removing Switchgear.

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