CN114857731B - Equipment and air purification system are dispeled to indoor formaldehyde photocatalyst intelligence - Google Patents

Abstract

The invention discloses indoor formaldehyde photocatalyst intelligent removal equipment and an air purification system, which belong to the field of photocatalysts and comprise a shell, wherein the top of the shell is fixedly connected with a top air inlet hole, the bottom of the outer wall of the shell is provided with an exhaust hole, the top of the top air inlet hole is communicated with a water injection port, a formaldehyde capturing device, a formaldehyde removing device, a partition plate and a partition plate II are sequentially arranged in the shell from top to bottom, a thrust bearing is arranged at the bottom of the formaldehyde capturing device, the top of a rib plate connected to the inner wall of the shell in a rotating manner, the top of the formaldehyde capturing device is communicated with an air heater, the air heater is fixedly connected to the inner wall of the shell, and a transmission device is arranged outside the formaldehyde capturing device. The formaldehyde can be captured by using water, the formaldehyde is poured into the optical medium treatment bin by the hot air blower to remove the formaldehyde, and meanwhile, the moisture in the air can be separated.

Description

Equipment and air purification system are dispeled to indoor formaldehyde photocatalyst intelligence

Technical Field

The invention relates to the field of photocatalysts, in particular to indoor formaldehyde photocatalyst intelligent removing equipment and an air purifying system.

Background

The photocatalyst is also called a photocatalyst, and is a general term for a semiconductor material with a photocatalytic function represented by nano-scale titanium dioxide. A representative photocatalyst material is titanium dioxide, which is capable of generating a substance having a strong oxidizing property under irradiation of light, and is useful for decomposing organic compounds, part of inorganic compounds, bacteria, viruses, and the like. In daily life, the photocatalyst can effectively degrade toxic and harmful gases in the air, such as formaldehyde and the like, and can efficiently purify the air; meanwhile, the method can effectively kill various bacteria, and can decompose and harmlessly treat toxins released by the bacteria or fungi.

The existing photocatalyst formaldehyde is usually removed by directly spraying a photocatalyst spray on the wall surface and the furniture surface with formaldehyde, and the titanium dioxide is a hundred-color powder which can affect the color of the furniture surface, and meanwhile, the photocatalyst formaldehyde can be removed only under the condition of illumination (ultraviolet rays) in a catalysis way, so that a plurality of inconveniences exist.

The formaldehyde volatilization speed is accelerated under the conditions of high temperature and high humidity, so that the human health is affected, and the active formaldehyde removing device is provided.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide indoor formaldehyde photocatalyst intelligent removal equipment which can capture formaldehyde by using water, and remove formaldehyde by pouring the formaldehyde into a light medium treatment bin through a hot air blower, and can separate moisture in air.

2. Technical proposal

In order to solve the problems, the invention adopts the following technical scheme.

The utility model provides an equipment is dispeled to indoor formaldehyde photocatalyst intelligence, includes the shell, the top fixedly connected with top inlet port of shell, the exhaust hole has been seted up to the outer wall bottom of shell, the top intercommunication of top inlet port has the water injection mouth, formaldehyde trapping apparatus, formaldehyde remove device, division board second have been set gradually from top to bottom to the inside of shell, formaldehyde trapping apparatus's bottom is provided with thrust bearing, and through rotating the floor top of connecting at the shell inner wall, formaldehyde trapping apparatus's top intercommunication has air heater, air heater fixed connection is at the inner wall of shell, formaldehyde trapping apparatus's outside is provided with transmission, formaldehyde trapping apparatus's bottom intercommunication has air duct one and air duct two, air duct one and formaldehyde remove device's top fixed intercommunication, formaldehyde remove device's bottom fixed joint has the division board, formaldehyde remove device's bottom fixed intercommunication has exhaust apparatus and ultraviolet tube, exhaust apparatus is located inside the storehouse, ultraviolet tube alternates division board and division board second and water storage storehouse intercommunication each other.

Further, formaldehyde trapping apparatus includes fixed plate one, design absorbent cotton two, fixed pipe, air guide plate, bleeder vent, the inside at the shell is connected in a rotation of fixed plate, evenly distributed's hole has been seted up at the top of fixed plate one, and is provided with the fixed pipe in the hole, evenly distributed has the air guide plate in, the outside evenly distributed of fixed pipe has design absorbent cotton and design absorbent cotton two. And the two distances between the shaping absorbent cotton and the shaping absorbent cotton are equal, the air guide plate and the shaping absorbent cotton are at the same height, two layers of air holes are formed in the distance between the adjacent air guide plates, and the air holes are mutually communicated with the distance between the shaping absorbent cotton and the shaping absorbent cotton.

Further, exhaust apparatus includes blast pipe, fan, the exhaust pipe joint is in the bottom of gas-liquid water conservancy diversion shell, the bottom of blast pipe communicates each other with the top of fan, the fan is located the inside in storehouse of airing exhaust.

Further, the transmission device comprises a motor, a transmission wheel and a belt, the belt is connected to the outer side of the formaldehyde capturing device in a transmission way, the motor is fixedly connected to the inner wall of the shell, the top of the motor is in transmission connection with the transmission wheel, and the transmission wheel is in transmission connection with the belt.

Further, formaldehyde remove device includes apron, back flow board II, air duct, division board, segmentation curb plate, cylinder guide plate, heat-conducting plate, refrigeration semiconductor, sealed shell, gas-liquid guide shell, back flow board III, cylinder guide plate II, back flow board IV, locating plate, the top of apron and the fixed intercommunication in bottom of air duct I and air duct II, the bottom of apron and sealed shell's top fixed connection, sealed shell's inner wall top fixedly connected with back flow board III, sealed shell's bottom and gas-liquid guide shell's top fixed connection, gas-liquid guide shell fixed joint is at the top of division board, the bottom of gas-liquid guide shell and cylinder guide plate passes through floor fixed connection, cylinder guide plate and gas-liquid guide shell coaxial line.

Further, the inner wall of the sealed shell is fixedly connected with a heat conducting plate, a gap exists between the heat conducting plate and the sealed shell, refrigerating semiconductors are distributed in the gap in an array mode, and the heat absorbing end of each refrigerating semiconductor faces the heat conducting plate.

Further, the top of the inner wall of the cylindrical guide plate is fixedly connected with the bottom of the backflow plate IV through the rib plate, the top of the backflow plate IV is fixedly connected with the cylindrical guide plate II, the cylindrical guide plate II is coaxial with the cylindrical guide plate, the side wall array of the inner wall of the cylindrical guide plate II is provided with a division side plate, the adjacent division side plate is provided with a groove at the clearance of the surface of the cylindrical guide plate II, the sliding joint is provided with a positioning plate, the middle part of the division side plate is fixedly connected with a partition plate, the axle center of the cylindrical guide plate II is provided with an air duct, and the air duct is fixedly connected with the division side plate.

Further, the ultraviolet tube plug is arranged in the groove of the outer wall of the second cylindrical guide plate and in the middle of the air duct, and the ultraviolet tube plug is clamped on the outer wall of the second cylindrical guide plate through the locating plate.

Further, the formaldehyde removing device is divided into a first air guide bin, a second air guide bin, a third air guide bin, a fourth air guide bin and a fifth air guide bin by the air guide tube, the partition plate, the second cylindrical guide plate and the cylindrical guide plate, and the shell is divided into an air exhaust bin and a water storage bin by the partition plate and the partition plate.

Further, the top fixedly connected with back flow board of division board is with wind-guiding storehouse two and wind-guiding storehouse one intercommunication each other, the bottom fixedly connected with back flow board four of air duct and cylinder guide plate two, and communicates wind-guiding storehouse four each other with wind-guiding storehouse one, the top fixedly connected with back flow board three of cylinder guide plate two and refrigeration semiconductor is with wind-guiding storehouse four and wind-guiding storehouse five each other intercommunication, the bottom of air duct two communicates each other with the top of aqueduct, the aqueduct alternates and passes apron and three and wind-guiding storehouse four each other intercommunication of air duct.

Furthermore, the surfaces of the air duct, the partition plate, the partition side plate, the cylindrical guide plate II and the cylindrical guide plate are sprayed with photocatalyst spray, and the materials of the components are transparent plastic plates.

Further, the method.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) According to the scheme, water is poured into the circular groove to infiltrate the felt piece, the shaping absorbent cotton and the shaping absorbent cotton II are infiltrated through a siphon effect, the purpose of capturing formaldehyde in air is achieved, and gas flows through gaps of the shaping absorbent cotton and the shaping absorbent cotton II to conduct gas guiding through the air holes and the fixing pipes, so that a continuous stacked air channel is formed, and the purpose of improving formaldehyde capturing efficiency is achieved.

(2) The external gas is driven by the fan to be heated by the air heater, flows into the formaldehyde capturing device, flows into the cover plate through the air duct, flows into the air guide bin III, sequentially flows into the air guide bin II, the air guide bin I and the air guide bin IV until flowing into the air guide bin V and being discharged through the exhaust pipe, and is removed by grouping in the air guide bin I, the air guide bin II and the air guide bin III.

(3) The air temperature in the air guide bin is reduced by supplying power to the refrigerating semiconductor, so that moisture in the air is condensed, the aim of dehumidification is achieved, and the collected water finally flows into the water storage bin through the gas-liquid guide shell and the ultraviolet lamp tube.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a front cross-sectional view of the structure of the present invention of FIG. 1;

FIG. 3 is a top cross-sectional view of the structure of the present invention of FIG. 1;

FIG. 4 is a schematic semi-sectional view of the structure of FIG. 1 of the present invention;

FIG. 5 is a schematic view of the internal construction of the structure of the present invention;

FIG. 6 is a reverse schematic of the structure of FIG. 5 of the present invention;

FIG. 7 is a schematic partial cross-sectional view of the structure of FIG. 5 of the present invention;

FIG. 8 is a schematic view of the structure of the present invention;

FIG. 9 is a partial schematic view a of the structure of the present invention in FIG. 7;

FIG. 10 is a partial schematic view b of the structure of the present invention in FIG. 7;

FIG. 11 is a partially expanded schematic illustration of a structural formaldehyde removal unit of the present invention;

FIG. 12 is a schematic partial cross-sectional view of a structural formaldehyde capture device of the present invention;

FIG. 13 is a schematic view of a structural water injection port of the present invention;

the reference numerals in the figures illustrate:

1. a housing; 2. a top inlet aperture; 3. an air heater; 4. a water filling port; 401. a circular groove; 402. a cylindrical tube; 403. a felt sheet; 5. an exhaust hole; 6. formaldehyde capturing device; 601. a first fixing plate; 602. shaping absorbent cotton; 603. shaping absorbent cotton II; 604. a fixed tube; 605. an air guide plate; 606. ventilation holes; 7. a formaldehyde removal device; 701. a cover plate; 702. a second backflow plate; 703. an air duct; 704. a partition plate; 705. dividing the side plates; 706. a cylindrical deflector; 707. a heat conductive plate; 708. a refrigerating semiconductor; 709. a sealed housing; 710. a gas-liquid guiding shell; 711. a backflow plate III; 712. a cylindrical deflector II; 713. a back flow plate IV; 714. a positioning plate; 8. an exhaust device; 801. an exhaust pipe; 802. a blower; 9. a water storage bin; 10. a transmission device; 101. a motor; 102. a driving wheel; 103. a belt; 11. an air duct I; 12. an air duct II; 13. a water conduit; 14. an ultraviolet lamp tube; 15. a partition plate; 16. a second partition plate; 17. an exhaust bin; 18. an air guide bin I; 19. an air guide bin II; 20. an air guide bin III; 21. a wind guide bin IV; 22. and a wind guiding bin five.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments, and that all other embodiments obtained by persons of ordinary skill in the art without making creative efforts based on the embodiments in the present invention are within the protection scope of the present invention.

Example 1:

referring to fig. 1-13, an indoor formaldehyde photocatalyst intelligent removal device comprises a shell 1, a top air inlet 2 is fixedly connected to the top of the shell 1, an air outlet 5 is formed in the bottom of the outer wall of the shell 1, a water injection port 4 is formed in the top of the top air inlet 2, a formaldehyde capturing device 6, a formaldehyde removing device 7, a partition plate 15 and a partition plate second 16 are sequentially arranged in the shell 1 from top to bottom, a thrust bearing is arranged at the bottom of the formaldehyde capturing device 6, an air heater 3 is communicated with the top of the formaldehyde capturing device 6 by rotating a rib plate top connected to the inner wall of the shell 1, the air heater 3 is fixedly connected to the inner wall of the shell 1, a transmission device 10 is arranged outside the formaldehyde capturing device 6, an air duct 11 and an air duct second 12 are communicated with the bottom of the formaldehyde capturing device 6, a partition plate 15 is fixedly clamped at the bottom of the formaldehyde removing device 7, an exhaust device 8 and an ultraviolet lamp tube 14 are fixedly communicated with the bottom of the formaldehyde removing device 7, the exhaust device 8 is arranged in an exhaust bin 17, the ultraviolet lamp tube 14 and the partition plate 15 and the partition plate second partition plate 9 are mutually communicated with the water storage bin 9.

Referring to fig. 12, the formaldehyde capturing device 6 includes a first fixing plate 601, a second fixing absorbent cotton 602, a second fixing absorbent cotton 603, a fixing tube 604, an air guide plate 605 and air holes 606, wherein the first fixing plate 601 is rotatably connected inside the housing 1, uniformly distributed holes are formed in the top of the first fixing plate 601, the fixing tube 604 is arranged in the holes, the air guide plate 605 is uniformly distributed in the holes, and the second fixing absorbent cotton 602 and the second fixing absorbent cotton 603 are uniformly distributed on the outer side of the fixing tube 604. And the interval between the shaping absorbent cotton 602 and the shaping absorbent cotton II 603 is equal, the air guide plate 605 and the shaping absorbent cotton 602 are at the same height, two layers of air holes 606 are formed in the interval between the adjacent air guide plates 605, and the air holes are mutually communicated with the interval between the shaping absorbent cotton 602 and the shaping absorbent cotton II 603.

Referring to fig. 10, the exhaust device 8 includes an exhaust pipe 801 and a fan 802, the exhaust pipe 801 is clamped at the bottom of the gas-liquid diversion housing 710, the bottom of the exhaust pipe 801 is mutually communicated with the top of the fan 802, and the fan 802 is located in the exhaust bin 17.

Referring to fig. 9, the transmission device 10 includes a motor 101, a transmission wheel 102, and a belt 103, the belt 103 is drivingly connected to the outer side of the formaldehyde capturing device 6, the motor 101 is fixedly connected to the inner wall of the housing 1, the top of the motor 101 is drivingly connected to the transmission wheel 102, and the transmission wheel 102 is drivingly connected to the belt 103.

Referring to fig. 7, the formaldehyde removing apparatus 7 includes a cover plate 701, a second backflow plate 702, an air duct 703, a partition plate 704, a partition plate 705, a cylindrical baffle 706, a heat conducting plate 707, a refrigeration semiconductor 708, a sealing housing 709, a gas-liquid baffle housing 710, a third backflow plate 711, a second cylindrical baffle 712, a fourth backflow plate 713 and a positioning plate 714, wherein the top of the cover plate 701 is fixedly communicated with the bottoms of the air duct 11 and the air duct 12, the bottom of the cover plate 701 is fixedly connected with the top of the sealing housing 709, the top of the inner wall of the sealing housing 709 is fixedly connected with the third backflow plate 711, the bottom of the sealing housing 709 is fixedly connected with the top of the gas-liquid baffle housing 710, the gas-liquid baffle housing 710 is fixedly clamped at the top of the partition plate 15, and the top of the gas-liquid baffle housing 710 is fixedly connected with the bottom of the cylindrical baffle 706 through a rib plate, and the cylindrical baffle 706 and the gas-liquid baffle housing 710 are coaxial.

Referring to fig. 10, a heat conducting plate 707 is fixedly connected to an inner wall of the sealed housing 709, a gap exists between the heat conducting plate 707 and the sealed housing 709, and refrigerating semiconductors 708 are distributed in the gap in an array manner, and a heat absorbing end of each refrigerating semiconductor 708 faces the heat conducting plate 707.

Referring to fig. 11, the top of the inner wall of the cylindrical baffle 706 is fixedly connected with the bottom of the fourth backflow plate 713 through a rib plate, the top of the fourth backflow plate 713 is fixedly connected with the second cylindrical baffle 712, the second cylindrical baffle 712 is coaxial with the cylindrical baffle 706, the side wall arrays of the inner wall of the second cylindrical baffle 712 are distributed with the dividing side plates 705, the adjacent dividing side plates 705 are provided with grooves at the gaps on the surfaces of the second cylindrical baffle 712, the positioning plates 714 are in sliding clamping connection, the partition plates 704 are fixedly connected with the middle parts of the dividing side plates 705, the air guide pipes 703 are arranged at the axle center of the second cylindrical baffle 712, and the air guide pipes 703 are fixedly connected with the dividing side plates 705.

Referring to fig. 11, the ultraviolet lamp tube 14 is plugged into a groove on the outer wall of the second cylindrical baffle 712 and the middle part of the air duct 703, and the ultraviolet lamp tube 14 is clamped on the outer wall of the second cylindrical baffle 712 by the positioning plate 714.

Referring to fig. 3, the air duct 703, the partition plate 704, the second cylindrical guide plate 712 and the second cylindrical guide plate 706 divide the formaldehyde removing device 7 into a first air guiding cabin 18, a second air guiding cabin 19, a third air guiding cabin 20, a fourth air guiding cabin 21 and a fifth air guiding cabin 22, and the partition plate 15 and the second partition plate 16 divide the casing 1 into an air exhausting cabin 17 and a water storage cabin 9.

Referring to fig. 7, a second backflow plate 702 is fixedly connected to the top of the partition plate 704 to communicate the second air guide cabin 19 with the first air guide cabin 18, a fourth backflow plate 713 is fixedly connected to the bottoms of the air guide pipe 703 and the second cylindrical air guide plate 712, the first air guide cabin 18 is communicated with the fourth air guide cabin 21, a third backflow plate 711 is fixedly connected to the tops of the second cylindrical air guide plate 712 and the refrigerating semiconductor 708 to communicate the fourth air guide cabin 21 with the fifth air guide cabin 22, the bottom of the second air guide pipe 12 is communicated with the top of the water guide pipe 13, the water guide pipe 13 is inserted through the cover plate 701 and the third backflow plate 711 to communicate with the fourth air guide cabin 21, and photocatalyst spray is sprayed on the surfaces of the air guide pipe 703, the partition plate 704, the partition side plates 705, the second cylindrical air guide plate 712 and the cylindrical air guide plate 706, and the components are made of transparent plastic plates.

Referring to fig. 13, the water injection port 4 includes a circular groove 401, a cylindrical tube 402, and a felt sheet 403, a circular groove is formed in the middle of the cylindrical tube 402, the felt sheet 403 is communicated with the bottom of the outer portion of the cylindrical tube 402, and is mutually communicated with the cylindrical tube 402, and the felt sheet 403 is in contact with the shaped absorbent cotton 602 and the shaped absorbent cotton two 603.

When in use: firstly, water is poured into a circular groove 401 to infiltrate a felt slice 403, and the shaping absorbent cotton 602 and the shaping absorbent cotton II 603 are infiltrated through a siphon effect, so that the purpose of capturing formaldehyde in air is achieved, gas flows through gaps of the shaping absorbent cotton 602 and the shaping absorbent cotton II 603 and a fixed pipe 604 to conduct gas guidance through a vent hole 606, a continuous stacked air passage is formed, the purpose of improving formaldehyde capturing efficiency is achieved, the fixed plate I601 is driven to rotate by 103 to achieve the purpose of carrying out formaldehyde removal on the shaping absorbent cotton 602 and the shaping absorbent cotton II 603 outside the fixed pipe 604 one by one, external gas is driven by a fan 802 to heat by an air heater 3, flows into a formaldehyde capturing device 6, flows into a cover plate 701 through a first air duct 11 and then flows into a third air guide bin 20, and then sequentially passing through the second wind guide bin 19, the first wind guide bin 18 and the fourth wind guide bin 21 until flowing into the fifth wind guide bin 22 and being discharged through the exhaust pipe 801, wherein gas is removed in the first wind guide bin 18, the second wind guide bin 19 and the third wind guide bin 20, the flowing-in gas flow speed is reduced due to the increase of the space, the reaction time of the photocatalyst is prolonged, meanwhile, the gas flowing through the air heater 3 directly flows into the fifth wind guide bin 22 through the second air guide pipe 12, the water guide pipe 13 and the fourth wind guide bin 21, the temperature of the air in the fifth wind guide bin 22 is reduced by supplying power to the refrigerating semiconductor 708, so that the moisture in the air is condensed, the purpose of dehumidification is achieved, and the collected water finally flows into the water storage bin 9 through the gas-liquid guide shell 710 and the ultraviolet lamp tube 14, and thus formaldehyde is removed from the outside air.

The above description is only of the preferred embodiments of the present invention; the scope of the invention is not limited in this respect. Any person skilled in the art, within the technical scope of the present disclosure, may apply to the present invention, and the technical solution and the improvement thereof are all covered by the protection scope of the present invention.

Claims (4)

1. The utility model provides an equipment is dispeled to indoor formaldehyde photocatalyst intelligence, includes shell (1), its characterized in that: the top of shell (1) fixedly connected with top inlet port (2), exhaust hole (5) have been seted up to the outer wall bottom of shell (1), the top intercommunication of top inlet port (2) has water filling port (4), the inside of shell (1) has set gradually formaldehyde trapping apparatus (6), formaldehyde remove device (7), division board (15), division board two (16) from top to bottom, the bottom of formaldehyde trapping apparatus (6) is provided with thrust bearing, and through rotating the floor top of connecting at shell (1) inner wall, the top intercommunication of formaldehyde trapping apparatus (6) has air heater (3), air heater (3) fixed connection is at the inner wall of shell (1), the outside of formaldehyde trapping apparatus (6) is provided with transmission (10), the bottom intercommunication of formaldehyde trapping apparatus (6) has air duct one (11) and air duct two (12), the bottom of air duct one (11) and air duct two (12) and the top fixed intercommunication of formaldehyde remove device (7), the bottom fixed joint of formaldehyde remove device (7) has air heater (15), formaldehyde remove device (8) and exhaust device (8) are located in the inside of bin (8), the ultraviolet lamp tube (14) is inserted into the partition plate (15) and the partition plate II (16) to be communicated with the water storage bin (9);

the formaldehyde capturing device (6) comprises a first fixing plate (601), a second fixing water-absorbing cotton (602), a second fixing water-absorbing cotton (603), a fixing pipe (604), an air guide plate (605) and air holes (606), wherein the first fixing plate (601) is rotationally connected inside the shell (1), uniformly distributed holes are formed in the top of the first fixing plate (601), fixing pipes (604) are arranged in the holes, the air guide plate (605) is uniformly distributed on the inner side of the fixing pipes (604), and the second fixing water-absorbing cotton (602) and the second fixing water-absorbing cotton (603) are uniformly distributed on the outer side of the fixing pipes (604); the distances between the shaping water absorbent cotton (602) and the shaping water absorbent cotton II (603) are equal, the air guide plate (605) and the shaping water absorbent cotton (602) are at the same height, two layers of air holes (606) are formed in the distance between the adjacent air guide plates (605), and the air holes are communicated with the distances between the shaping water absorbent cotton (602) and the shaping water absorbent cotton II (603); the exhaust device (8) comprises an exhaust pipe (801) and a fan (802), wherein the exhaust pipe (801) is clamped at the bottom of the gas-liquid diversion shell (710), the bottom of the exhaust pipe (801) is communicated with the top of the fan (802), and the fan (802) is positioned in the exhaust bin (17); the transmission device (10) comprises a motor (101), a transmission wheel (102) and a belt (103), the belt (103) is connected to the outer side of the formaldehyde capturing device (6) in a transmission way, the motor (101) is fixedly connected to the inner wall of the shell (1), the top of the motor (101) is in transmission connection with the transmission wheel (102), the transmission wheel (102) is in transmission connection with the belt (103), the formaldehyde removing device (7) comprises a cover plate (701), a second backflow plate (702), an air duct (703), a separation plate (704), a segmentation side plate (705), a cylindrical baffle (706), a heat conducting plate (707), a refrigerating semiconductor (708), a sealing shell (709), a gas-liquid baffle shell (710), a third backflow plate (711), a second cylindrical baffle (712), a fourth backflow plate (713) and a positioning plate (714), the top of the cover plate (701) is fixedly communicated with the bottom of the first air duct (11) and the second air duct (12), the top of the sealing shell (709) is fixedly connected with the top of the inner wall top of the sealing shell (709), the third backflow plate (709) is fixedly connected with the bottom of the sealing shell (709), the gas-liquid diversion shell (710) is fixedly clamped at the top of the partition plate (15), the top of the gas-liquid diversion shell (710) is fixedly connected with the bottom of the cylindrical diversion plate (706) through a rib plate, and the cylindrical diversion plate (706) and the gas-liquid diversion shell (710) are coaxial; the inner wall of the sealed shell (709) is fixedly connected with a heat conducting plate (707), gaps exist between the heat conducting plate (707) and the sealed shell (709), refrigerating semiconductors (708) are distributed in the gaps in an array mode, heat absorbing ends of the refrigerating semiconductors (708) face the heat conducting plate (707), the top of the inner wall of the cylindrical guide plate (706) is fixedly connected with the bottom of a backflow plate (713) through a rib plate, the top of the backflow plate (713) is fixedly connected with a cylindrical guide plate II (712), the cylindrical guide plate II (712) is coaxial with the cylindrical guide plate (706), dividing side plates (705) are distributed on the side wall array of the inner wall of the cylindrical guide plate II (712), grooves are formed in the positions, located on the surfaces of the cylindrical guide plate II (712), of the adjacent dividing side plates (705), positioning plates (714) are connected in a sliding mode, partition plates (704) are fixedly connected to the middle portions of the cylindrical guide plate II (712), air guide pipes (703) are arranged at the positions of the axes of the cylindrical guide plate II (703), and the dividing side plates (705) are fixedly connected with the dividing side plates (705). The ultraviolet lamp tube (14) is plugged into the groove of the outer wall of the second cylindrical guide plate (712) and the middle part of the air duct (703), and the ultraviolet lamp tube (14) is clamped on the outer wall of the second cylindrical guide plate (712) through the positioning plate (714); the formaldehyde removing device (7) is divided into a first air guide bin (18), a second air guide bin (19), a third air guide bin (20), a fourth air guide bin (21) and a fifth air guide bin (22) by the air guide tube (703), the partition plate (704), a second cylindrical guide plate (712) and a second cylindrical guide plate (706), and the shell (1) is divided into an air exhaust bin (17) and a water storage bin (9) by the partition plate (15) and the partition plate (16); the top fixedly connected with back flow board two (702) of division board (704) communicates air guide storehouse two (19) and air guide storehouse one (18) each other, the bottom fixedly connected with back flow board four (713) of air duct (703) and cylinder guide board two (712), and communicate air guide storehouse one (18) and air guide storehouse four (21) each other, the top fixedly connected with back flow board three (711) of cylinder guide board two (712) and refrigeration semiconductor (708) communicates air guide storehouse four (21) and air guide storehouse five (22) each other, the bottom of air duct two (12) communicates with the top of air duct (13) each other, air duct (13) alternate apron (701) and back flow board three (711) and air guide storehouse four (21) each other.

2. The intelligent indoor formaldehyde photocatalyst removing device according to claim 1, wherein: the photocatalyst spraying agent is sprayed on the surfaces of the air duct (703), the partition plate (704), the partition side plate (705), the cylindrical guide plate II (712) and the cylindrical guide plate (706).

3. The intelligent indoor formaldehyde photocatalyst removing device according to claim 2, characterized in that: the water injection port (4) comprises a circular groove (401), a cylindrical pipe (402) and a felt piece (403), the circular groove is formed in the middle of the cylindrical pipe (402), the felt piece (403) is communicated with the bottom of the outer portion of the cylindrical pipe (402) and is communicated with the cylindrical pipe (402), and the felt piece (403) is in contact with the shaping absorbent cotton (602) and the shaping absorbent cotton two (603) mutually.

4. An indoor air purification system, characterized in that: the indoor air purification system is matched with the indoor formaldehyde photocatalyst intelligent removal equipment according to claim 3.