TWM424472U - Air cleaning device of return air intake of ceiling air-conditioning system - Google Patents

Description

M424472

V V. New description: [New technical field] This creation is about a kind of air purifying device used in the cold air return air inlet of the ceiling. In detail, it is about a kind of air cleaning device with nano photocatalyst to enhance the traditional cold air return air filter. The net air purification efficiency. [Prior Art] A nanophotocatalyst is a photoinduced catalyst which can effectively reduce the activation energy of a chemical reaction, promote a chemical reaction or accelerate the reaction, but the catalyst itself does not participate in the reaction or destroy the bulk structure. The most commonly used nano-lights on the market are the titanium dioxide (Τι〇2), which is better and cheaper, and is provided by ultraviolet (uv) or near-ultra (near_uv) illumination. The amount of photocatalytic reaction is such that oxygen or water molecules around the catalyst are converted into highly active hydroxyl radicals (0H·) and negative oxygen ions (〇2-), both of which have extremely strong oxidation. Ability, can effectively decompose the adverse effects on human health, 'clouds and nine. This machine wood, six, flavor substances and effective inhibition of pathogen breeding: also has high processing efficiency, easy to operate, both decontamination and antibacterial

advantage. Only the catalytic reaction acts only on the surface of the nanophotocatalyst, so the reaction efficiency is often limited by, cloud & % contribution and transport rate. In the past few years, the electrostatic filter has been widely used in air utilization, high efficiency, and A, go to the W-sequence machine, and its electrostatic effect is treated by a fiber-optic treatment. In addition, the filter is used to sweep the market with the low-pressure phase and the efficiency of the low-pressure phase. However, the static Me A1 虱β 机 净 I...: salty but very fast, resulting in an increase in the replacement rate of consumables, filtering The replacement of the network can not be replaced. This kind of air purifier firstly produces the lightning-receiving property of the suspended particles in the M424472 second gas, and then collects the charged county, the mysterious heart in the air with a filter with high filtration efficiency. Through the filter screen with a multi-fold surface, the contact area of the nets of the nets can be increased to attract a large amount of charged aerosols, so as to enhance the overall filtration efficiency. However, in the prior art, ±α is transmitted, and the combination of the filter materials is used to achieve the high collection efficiency of the suspended particles, but the low wind (J and the evening; &; 丨 之 之 之 之 相当 相当 相当 相当 相当 , , , , , , , , , , When it is too large, even if it has a good trapping effect, it cannot be widely used. Even using electrostatic or electrostatic sputum can only remove suspended particles, and cannot remove gaseous volatile organic pollutants at the same time.

Therefore, it is necessary to provide an innovative and progressive ceiling air-cooling air return air cleaning device to solve the above problems. [New content] The present invention provides a ceiling air-cooling air return air cleaning device, which comprises: a primary filtering unit, an air cleaning unit and a high-pressure ion generator. The primary filtering unit has a substrate and a primary screen, the substrate having an opening, the primary screen covering the opening on one side of the substrate. The air cleaning unit comprises: a conductive mesh frame, an electrostatic dust collecting filter unit, a conductive housing, a first nano photocatalyst metal filter, a second nano photocatalyst metal filter, an ultraviolet device and a Self-cleaning activated carbon fiber filter. The conductive mesh frame joins the opening and is relatively positioned above the primary filter screen. The sinister electrostatic dust collecting filter and the net early element are disposed at a relative position above the conductive mesh frame, and sequentially have a first glass fiber filter material, a high voltage ion discharge mesh and a second glass fiber filter material. The conductive housing is electrically connected to the conductive mesh frame, and has a first port and a second port, and the first port is adjacent to and opposite to the electrostatic dust collecting M424472 filter unit. The first nano photocatalyst metal filter is disposed on the first port and electrically connected to the conductive housing. The second nano photocatalyst metal screen is disposed on the second port. The ultraviolet light device is disposed between the first nano photocatalyst metal screen and the second nano photocatalyst metal screen. The self-cleaning activated carbon fiber filter is disposed at a position opposite to the second nano photocatalyst metal filter. The high-voltage ion generator is connected to an AC power source, and has a positive terminal and a circuit terminal. The positive terminal is electrically connected to the high-voltage ion discharge network, and the circuit end is electrically connected to the conductive frame. The air-cooling device of the cold air return air outlet of the present invention not only disassembles and disassembles, but also adsorbs air particles and rapidly destroys and decomposes organic pollutants, and has the functions of deodorizing, dust removing and sterilizing. Moreover, the primary filtering unit is used to initially filter the suspended particles of larger particle size in the air, thereby increasing the effect of the jade gas and the use of the air purifying device of the ceiling cold air return air outlet, and using the high-pressure ion generator to make the One of the air purification units = a polarization electric field formed between the ion-exchange grid and a conductive grid and a first nano-photocatalyst metal (5) to increase the adsorption capacity of the air cleaning unit to the particles in the air and the photocatalyst to organic The ability to destroy and decompose pollutants. Furthermore, the primary filter screen of the present invention, the electrostatic dust filter screen unit, the first nano photocatalyst metal filter, the second nano photocatalyst metal filter, and the self-cleaning activated carbon fiber filter are after a period of time. After filtration, it can be taken out and washed with water, and can be reused after being properly dried, so that the cost of replacing the consumables can be reduced. The air cleaning device of this creation is based on the ceiling air-cooling air return filter screen, which is designed to achieve the above objectives in terms of enhancement of air purification efficiency, ease of installation, light weight and ease of maintenance. And with the combination of early and late effects, it can flexibly meet the needs of different environments. The cleaning device is configured by using a primary-passing unit, a high-pressure ion generator, an electrostatic dust collecting unit, and a photocatalyst air cleaning unit, and utilizing the primary passing unit 71 to initially pass a larger particle size suspended particle. And then use the (four) sub-generation to generate the polarized electric field formed by the H-connected-high (four) sub-discharge net disk and the conductive photo frame and the nano photocatalyst conductive net frame.

The photocatalyst glass fiber carrier carried between the conductive mesh frame and the high dust ion discharge net is electrostatically adsorbed to adsorb suspended particles of fine particle size with different electrostatic polarities in the air, and may also be enhanced. The photocatalyst air purification unit is capable of decomposing bacteria and organic pollutants in the photocatalytic process. And 'the ceiling of the cold air return air purifier of this creation from the primary +; considering the collection of the fine particle size of the towel, and even the removal of odor and bacteria by the photocatalyst crossing network - the phase-to-gas and the formation. Because of the structural design, the filter is exposed to the exposed side of the ceiling. It is easy to remove and wash the cloth. This unit can also be used to disassemble and maintain the work. The combination of different units of the demand for the needs of the initial δ and cost savings. Furthermore, 'this creation can greatly improve the dust collection life of the broken fiber carrier because of the rough mesh. The other layers of the filter do not need to be replaced. 'Removing the water to wash the dry material can be reused, so the replacement of consumables can be reduced. The cost. [Embodiment] FIG. 1 shows an exploded view of the air purifying device of the cold air return air outlet of the creation of the Α # 〜 Dahua board; FIG. 2 shows a schematic diagram of the primary transition unit of the present creation. The ceiling air-cooling air return air cleaning device 1 includes a primary filter unit 2, an air cleaning unit 3, a high-pressure ion generator 5, and a reset switch unit 6 in conjunction with the reference diagram.纟 Creation <Ceiling Cold: Return air Purification unit 丨 can be applied to indoor air conditioning systems, where the return air can be direct return air (filtered air is led out through the duct) or open return air. The installation method of the ceiling air-cooling air return air purifying device of the present invention can be: 1. The ceiling air-cooling air return air purifying device i is connected with the circulating fan 4 and interlocked (as shown in Figures 3 and 4); 2. The ceiling air outlet air The cleaning device 1 is in communication with and connected to the air-conditioning blower 9, and the clean air after the treatment is sent out from the ceiling air outlet 11 (as shown in Figs. 5 and 6). The primary filter unit 2 has a substrate 21, a primary screen 22 and a protective mesh cover 23'. The substrate 21 has an opening 24, and the primary network 22 is disposed on one side 211 of the substrate 21 to cover the opening 24. In the present embodiment, the substrate 21 is made of acrylonitrile-butadiene-styrene plastic, ... bUtadienCe Styrene Plasdcs (ABS), and the primary filter 22 is made of nylon. The primary filter 22 is movably coupled between the substrate 2 and the protective mesh cover 23. In the present embodiment, the primary filter 22 is movably coupled to the substrate 21 and the protective mesh by means of a push-pull arrangement. Between the covers 23, the protective mesh cover 23 is bonded to the substrate 21 for covering the primary screen 22. The primary filtering unit 2 can initially pass the larger particle size suspended particles in the air, which not only increases the air cleaning effect, but also increases the use of the ceiling air-cooling air return air cleaning device. After a period of filtration, the primary screen 22 can be withdrawn by washing with water. After appropriate drying, it can be reused. Fig. 7 shows a schematic diagram of the electrostatic dust collecting filter unit of the present invention; Fig. 8 shows a schematic view of the present invention that the power input/output quick socket is disposed in the conductive housing. The air cleaning unit 3 includes a conductive mesh frame 31, an electrostatic dust collecting filter unit 32, a conductive housing 33, a first nano photocatalyst metal filter 34, and a reference numeral 丨_2 and FIG. 7_8. A second nano photocatalyst metal screen 35, an ultraviolet light device 36, a self-cleaning activated carbon fiber filter 37, and a power input/output quick socket 38. The conductive mesh frame 31 includes at least one first fixing portion and one conductive portion. In the embodiment, the conductive mesh frame 31 includes three first fixing portions 311 and a conductive portion 312'. The conductive portion 312 is disposed on the periphery of the opening 24 of the other side 2 12 of the substrate 2 1 , and the conductive frame 31 is coupled to the opening 24 and opposite to the primary filter 22 . In the present embodiment, the electrostatic dust collecting filter unit 32 is disposed at a position above the conductive mesh frame 31. The electrostatic dust collecting filter unit 32 has a _th glass fiber filter 321 and a high voltage ion discharge net 322. a second broken fiber 323 and a cover 324. The first glass fiber filter 321 is adjacent to the conductive mesh frame 31. The outer cover 324 is used to cover the first glass fiber filter material 321, the high voltage ion discharge mesh 322 and the second glass fiber filter material 323 to form a module. The unit is more convenient for disassembly and assembly of the modular electrostatic dust filter unit 32, wherein the second glass fiber 323 is a glass fiber material coated with a photocatalyst. In the present embodiment, the two-pressure ion discharge net 32 2 is electrically connected to the high-pressure ion generator 5 by a wire via a quick connector 3 2 5 . The glass fibers in the first glass fiber filter material 321 and the second glass fiber filter material 323 can adsorb particles in the air, and the surface of the second glass fiber filter material 323 is covered with a catalyst (such as Ding Bi) in the ultraviolet light. (from the material light device 35), when the light is irradiated, the organic pollutants can be quickly destroyed, so that the functions of deodorization, dust removal and sterilization can be simultaneously performed. In addition, after the passage of time (4), the electrostatic precipitator network unit 32 can be taken out and washed with water, and can be reused after being properly dried. In this embodiment, the conductive housing 33 includes a ring wall 331 , a wind guide cover 332 , a first through D 333 , a second through 334 , at least a second fixed portion 335 , and a plurality of convex lips 336 . . The first opening 333 is adjacent to the electrostatic dust collecting filter unit 32, and the air guiding cover 332 is connected to the opening periphery of the annular wall 331. The second opening 334 is formed on the air guiding cover. 332. The first fixing portion 335 is disposed on the periphery of the first opening 333, and the second fixing portions 335 are connected to the first fixing portions 3 (in the present embodiment, the first fixing member 7 is utilized (for example: The first fixing portion 3 and the second fixing portion 335 are connected to the substrate 21), and the conductive housing 33 is connected to the second fixing portion 311 and the second fixing portion. The portion 335 is electrically connected to the conductive frame 31. In the present embodiment, a plurality of second fixing members 8 (e.g., screws) are used in combination with the small ring wall 3 3 1 and the air guiding cover 33 2 . The convex lips 336 are disposed on the inner side of the annular wall 33 1 for fixing the first nano photocatalyst metal screen 34 and the second nano photocatalyst metal screen 35. And the first nano photocatalyst metal filter 34 is fixed to the ring wall 331, and the second nebulizer M424472 is used as the photocatalyst metal by using a plurality of bead (for example, sponge bead) disposed on the inner surface of the air guiding cover 332. The screen 35 is pressed against the convex lips 336. The first nano photocatalyst metal screen 34 is disposed on the first port 333, and the second photocatalyst metal screen 35 is disposed on the second port 334. Preferably, the first nano photocatalyst metal screen 34 is electrically connected to the conductive housing 33 via the protruding lips 336. In the present embodiment, the first nano photocatalyst metal screen 34 and the second nano photocatalyst metal screen 35 are made of stainless steel. The photocatalyst disposed on the surface of the first nano photocatalyst metal screen 34 and the first photon metal filter screen 35 is also rapidly destroyed by ultraviolet light (from the ultraviolet light device 36). Organic pollutants further enhance the functions of deodorization, dust removal and sterilization. In addition, after a period of time, the 4th-nano photocatalyst metal mesh net and the second nano photocatalyst metal mesh 35 can be taken out and washed with water, and can be repeatedly used after being properly dried. The ultraviolet light device 36 can include a smuggler from the sputum/small smear/official light or a circular ultraviolet light tube. The ultraviolet light device 36 can be disposed in the 兮 flute. ^ _ two straight to the first sea nano photocatalyst metal filter 34 and Lu Shai first nano photocatalyst metal network 35 eve pq ^ .. zero ^ & between. In the embodiment, the plurality of third fixed elements are used, and the ultraviolet light device 36 is fixed in the ring wall 331 by using a device 10 (for example, a screw). The self-cleaning activated carbon fiber enthalpy net 3 7 is willing to withstand 37 0 and is placed in the opposite position of the second nano photocatalyst metal care net 3 5 . In the position of Ganshicai, the photocatalyst is attached to the activated carbon fiber of the self-cleaning activated carbon fiber filter 37, and the surface of the anti-aging body is so that the activated carbon fiber body can adsorb pollutants, and the photocatalyst is used to decompose the activated carbon fiber and the quasi-body. The adsorbed contaminant is pulled, and the self-cleaning activated carbon fiber filter 37 can increase the photocatalytic decomposition by the transmission of the pollutants in the environment by the enthalpy of the activated carbon fiber and the attached force. The effect of destruction and the value of use. Further, the decomposition of the photocatalyst destroys the contamination (4), and the (tetra) carbon fiber is not easily saturated and has long-lasting effect, thereby achieving the purpose of improving the photocatalyst treatment efficiency and effectively extending the use time of the activated carbon fiber. Furthermore, the self-cleaning activated carbon fiber mesh 37 has both deodorization, dust removal and sterilization: For details of the self-cleaning activated carbon fiber filter 37, please refer to the Patent Application No. 0941 30816 of the Republic of China, which will not be described here. In the present embodiment, the power supply input/output quick socket 38 is connected to the conductive housing 33. The power input/output quick socket includes a power terminal 381, a high voltage material generator terminal 382, and an ultraviolet light. The device is connected to the terminal 3^83. Wherein the power terminal 38 is electrically connected to the alternating current power source u and conducts the alternating current power source 11 to the high voltage ion generator connector 382 and the ultraviolet light device terminal 383. The high voltage ion generator 5 is electrically connected to the The high voltage ion generator terminal 382 and the infrared light device 36 are electrically connected, and the ultraviolet light device terminal 383 is preferably connected. Thereby, the components can be quickly and conveniently connected to the respective terminals to obtain the respective requirements, and only the components to be operated can be turned on according to requirements, and the components are easier to replace when used. The 'Centre Cooling Air Return Air Purification Device 1 of the present invention may optionally further include an negative ion generator (not shown) disposed in the conductive housing 33 to release a large amount of negative ions, using a floating micro-seat In the present embodiment, the conductive mesh frame 31 is a conductive metal mesh frame, and the conductive mesh frame 31 is used. The conductive portion 312 is electrically connected to the loop end 52. The positive M424472 electrical terminal 51 is electrically connected to the high voltage ion discharge net 322 (FIG.) via the quick connector 325, and the loop end 52 is electrically connected via the conductive portion 312. The conductive mesh frame 31 is connected to the conductive mesh frame 31. The high voltage ion discharge mesh 322 is positively charged, and the conductive layer is located on the two sides of the static electricity collection filter screen (the pressure ion discharge network 3 2 2). Frame 31 and the first The nano photocatalyst metal screen 34 electrically turns on the loop end 52, so that the high voltage ion generator 5, the conductive net frame 31 and the conductive germanium 33 form a loop with the local ion discharge net 322. An electric field is formed between the high-voltage ion discharge net 322 with positive charge and the conductive net frame 31 and the first nano photocatalyst metal mesh 34, and the electric field can polarize the first glass fiber filter 321 and the first The second glass fiber filter material 323 (increasing the electrostatic dust collecting effect, further capturing the suspended particles and the like not captured by the first glass fiber filter material 321), thereby increasing the adsorption capacity of the particles in the air, and increasing the first fiber breaking property The photocatalyst of the filter material 323 is capable of decomposing and decomposing the organic pollutants. The reset switch unit 6 is fixed to the substrate 21. Referring to FIG. 1 and FIG. 2, in the embodiment, the reset switch unit 6 includes an indicator group. 61. The reset switch unit 6 can record the operation time of the electrostatic dust filter unit 32, and the non-light group 61 is configured to replace the electrostatic dust filter unit 32 according to the operation time. The ceiling is cold air back The air outlet air cleaning device 1' turns on the reset switch unit 6 to record the operation time of the electrostatic dust collector net unit 32. When the operation day (four) reaches the set time, the indicator group 61 displays the lamp number for replacement (for example: Red light), = replace the static electricity collection network unit 32; replace the electrostatic dust collector net unit 32 and then re-open the s Xuan reset switch unit 6 to recalculate the static electricity • 12· M424472 dust collection net unit 3 2 operation time. '··'T: As mentioned above, the ceiling air-conditioning and air return air cleaning device 1 of this creation is not only easy to disassemble, but also adsorbs particles in the air and rapidly destroys organic pollutants. It has the functions of deodorization, dust removal and sterilization. Moreover, the primary filter unit 2 is used to initially filter the air filter with a larger particle size, and the air purification effect and the service life of the ceiling air-cooling air return air/monthly device 1 are utilized, and the high-pressure ion generator 5 is utilized. The

A high-voltage ion discharge net 322 of the empty milk cleaning unit 3 forms a polarized electric field between the conductive mesh frame 3 and the first nano photocatalyst metal filter 34 to increase the adsorption capacity of the air β net unit 3 to particles in the air. And photocatalytic ability to destroy and decompose organic pollutants. Furthermore, the primary network 212 of the present creation, the static electricity collection (four) network unit 32, the first nano photocatalyst gold n net 34 and the »Xuan first no, the rice photocatalyst metal filter 35 are filtered after a period of time. After that, it can be taken out and washed with water, and can be reused after being properly dried, so that the cost of replacing the consumables can be reduced.疋, the ceiling air-conditioning air return air cleaning device 1 can be selectively assembled, you, 丨 & m β丄, • with the initial oversized large suspended particles, photocatalyst sterilization 'deodorization (degradation of organic Contaminant) and electrostatic dust collection effect (including primary over-twist unit 2, conductive mesh frame 31, electrostatic dust collector net unit 32, nano photocatalyst metal filter 34 or / and 35); or have a preliminary over-large Suspended particles, photocatalyst sterilization and deodorizing effects (including primary transition 〇〇 ° conductive frame 3 1 and nano photocatalyst metal filter 34 or / and 35); or simply have a preliminary metaphor - I filter Net granules and electrostatic dust collection (including primary filter single TL 2, conductive mesh frame 3) and electrostatic dust filter unit"). 13 M424472

And the "this" " warehouse J 4 夕 奸 奸 奸 奸 奸 疋 化 板 板 冷 冷 冷 冷 冷 冷 冷 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 It’s not awkward, :: 'The monthly net installation is a breakthrough design with the ceiling air-conditioning return air filter as the back hall, the enhancement of the air-cleaning efficiency, the simple installation, and the weight of the day. The above (4) can be achieved and the combination of early and late effects can flexibly meet the needs of different environments. The cleaning device is configured by using a primary filter unit, a high-pressure tower equipped with an electrostatic dust collection unit and a photocatalyst air purification unit, and initially filtering the larger particle size suspended particles in the air by using the 5 Xuan primary filter unit. Two uL ^ tl. w. A polarized electric field formed by a high-voltage ion discharge network connected to a conductive grid and a nano-photocatalytic conductive grid, and a loss of load between a grid frame and a rain-pressure ion discharge network The photocatalyst glass fiber," 'Because of the polarization with static electricity, it can adsorb different electrostatic polarity in the air:::: 悬浮 suspended particles', on the other hand, it can also enhance the photocatalyst air cleaning process to the bacteria and organic pollution The destruction of the object decomposes the moon fc* knife. 袓ί二ί creates the ceiling air-cooled air return air purification device from the primary ^. test, to the collection of high-efficiency fine particle size and even the photocatalyst filter to the opposite two = remove the phase through the gas and into Because of the structural design: the coarse filter screen adopts the exposed side of the ceiling, and the convenient re-washing can be combined with the smashing type. It also helps the disassembly and maintenance work easily:: It can meet different ambient air Needs of the cell adopt different groups "may be: =: cost savings. Furthermore, 'this creation is due to the _ network... greatly the dust collection life of the glass fiber carrier, the other layers of the mesh 14 M4Z4472 do not need to be replaced, the water can be reused after being washed and dried, so the cost of replacing the coffin can be reduced. The above embodiments are merely illustrative of the principles and functions of the present invention, and are not intended to limit the creation. Therefore, those skilled in the art will be able to modify and defuse the above embodiments without departing from the spirit of the present invention. The scope of the present invention should be as described later. The scope of the application is listed in the scope of the patent. [Simplified description of the drawing] Figure 1 shows the exploded view of the air purifying device for the cold air return air inlet of the present creation; Figure 2 shows the schematic diagram of the primary filtering unit of the present creation; The schematic diagram of the air-cooling device of the ceiling air-cooling air return and the circulating air is connected and linked; Figure 1 2 3 4 and 6 show the schematic diagram of the air purifying device of the ceiling air outlet of the present creation and the air-conditioner fan connected and interlocked; Figure 7 shows the static electricity set of the creation Schematic diagram of the dust filter unit; and Figure 8 shows the schematic diagram of the power input/output quick socket set in the conductive housing. Component symbol description] The ceiling air-cooling air return air purifying device of this creation 2. Primary bypass unit -15· 1 Air cleaning unit 2 Circulating fan 3 High-pressure ion generator 4 Reversion switch unit M424472 7 First fixing element 8 Second fixing element 9 Air conditioner blower 10 Third fixing element 11 Ceiling air outlet 21 Substrate 22 Primary filter 23 Protective net cover 24 Opening 31 Conductive frame 32 Electrostatic dust collecting filter unit 33 Conductive housing 34 First nano photocatalyst metal filter 35 Two nano photocatalyst metal filter 36 Ultraviolet device 37 Self-cleaning activated carbon fiber filter 38 Power input/output quick socket 211 One side of the substrate 212 The other side of the substrate 311 First fixing part 312 Conducting part 321 First glass fiber filter 322 High-voltage ion discharge net 323 Second glass fiber filter -16- M424472 324 Cover 325 Quick joint 331 Ring wall 332 Air guide 333 First port 334 Second port 335 Second fixing part 336 Lip

381 power connector 382 high voltage ion generator connector 383 UV device connector

Claims (1)

M424472 VI. Patent application scope: 1. A ceiling air-conditioning air return air cleaning device, comprising: a primary filter unit having a substrate and a primary filter screen, the substrate having an opening, the primary filter mesh being on one side of the substrate Covering the opening; an air cleaning unit, comprising: a conductive mesh frame, the conductive mesh frame is coupled to the opening and opposite to the primary filter screen; an electrostatic dust collecting filter unit is disposed above the conductive mesh frame a first glass fiber filter material, a high-pressure ion discharge network and a second glass fiber filter material; a conductive shell electrically connected to the conductive mesh frame, having a first port and a second a first port is adjacent to and opposite to the electrostatic dust collecting network unit; a first nano photocatalyst metal screen is disposed on the first port and electrically connected to the conductive housing; a photocatalyst metal filter is disposed on the second port; the % external light device is disposed between the first nano photocatalyst metal filter and the second nano photocatalyst metal filter; The activated carbon fiber filter is disposed on the second nano photocatalyst metal filter net relative position; and the same pressure ion generator, the connection-AC power source has a positive electric* shifting end, and the positive electric end is electrically connected The high voltage ion discharge net is electrically connected to the conductive mesh frame. The ceiling air-cooling air return air cleaning device according to Item 1, wherein the -18· middle S-substrate is made of Acryl〇nitrile_ butadience styrene plastics (ABS), the primary crucible, The mesh system is made of nylon. 3. The ceiling cold air return air cleaning device of claim 1, wherein the primary screen is movably coupled to the substrate. 4. The ceiling air-conditioning return air cleaning device of claim 3, wherein the primary filter unit further comprises a protective mesh cover coupled to the substrate to cover the primary filter. The ceiling air-conditioning air return air cleaning device of claim 1, wherein the conductive mesh frame further comprises at least one first fixing portion and a conductive portion disposed on the other side of the opening of the substrate, the conductive portion The conductive housing further includes at least one second fixing portion disposed at a periphery of the first opening, and the second fixing portion is connected to the first fixing portion. 6. The ceiling air-cooling air return air cleaning device of claim 5, wherein the air cleaning unit further comprises at least one first fixing member for connecting the first fixing portion and the second fixing portion. 7. The ceiling air-cooling air return air cleaning device according to claim 1, wherein the static electricity collection mesh has an outer cover for covering the first glass fiber filter material, the high-voltage ion discharge network, and the Second glass fiber filter. The ceiling air-cooling air return air cleaning device according to claim 1 , wherein the conductive housing comprises a ring wall and a wind guide cover, and the air guiding cover is connected to the circumference of the opening of the ring wall, the second pass The mouth is formed on the wind guide cover. 9. The ceiling air-cooling air return air cleaning device of claim 8, wherein the air cleaning unit further comprises a plurality of second fixing members for joining the ring wall and the air guiding cover. 10. The ceiling air-cooling air return air cleaning device according to claim 1, wherein the second glass fiber filter material is a glass fiber filter material coated with a photocatalyst. 11. The ceiling air-conditioning air return air cleaning device of claim 1, wherein the inner side of the conductive housing further comprises a plurality of convex lips for fixing the first nano photocatalyst metal filter and the second nano Rice photocatalyst metal filter. 12. The ceiling air-conditioning air return air cleaning device of claim 11, wherein the air cleaning unit further comprises a plurality of third fixing elements for fixing the first nano photocatalyst metal filter and the second nanometer. A photocatalyst metal filter is applied to the convex lips. 13. The ceiling cold air return air cleaning device of claim 12, wherein the first nano photocatalyst metal screen and the second nano photocatalyst metal are electrically conductive. 14. The ceiling cold air return air cleaning device of claim 13, wherein the first nano photocatalyst metal screen and the second nano photocatalyst metal screen are made of stainless steel. The ceiling air-cooling air return air cleaning device of claim 1, wherein the air cleaning unit further comprises a plurality of third fixing members for fixing the ultraviolet light device to the conductive housing. 16. The ceiling air-conditioning return air cleaning device of claim 1, further comprising a reset switch unit fixed to the substrate. 17. The ceiling air-conditioning return air cleaning device of claim 16, wherein the reset switch unit further comprises an indicator group, and the electrostatic precipitator unit is replaced according to the indication of the indicator group -20-M424472. 18. The ceiling air-conditioning air return air cleaning device of claim 1, wherein the air cleaning unit further comprises a power input/output quick socket disposed in the conductive housing, the power input/output quick socket at least comprising a power supply terminal, a high voltage ion generator terminal, and an ultraviolet light device terminal. The power terminal is electrically connected to the alternating current power source, and the alternating current power source is connected to the high voltage ion generator terminal and the ultraviolet light device. The high-end ion generating device and the ultraviolet light device are respectively electrically connected to the high-voltage ion generator terminal and the ultraviolet light device terminal.