CN110500677B

CN110500677B - Air purification treatment system

Info

Publication number: CN110500677B
Application number: CN201910685309.1A
Authority: CN
Inventors: 许敏
Original assignee: Wuxi Urban Design Institute Co ltd
Current assignee: Wuxi Urban Design Institute Co ltd
Priority date: 2019-07-27
Filing date: 2019-07-27
Publication date: 2020-11-10
Anticipated expiration: 2039-07-27
Also published as: CN110500677A

Abstract

The invention relates to the technical field of environment regulating systems, and aims to provide an air purification treatment system, which has the technical scheme that the air purification treatment system comprises a first bottom plate, a fresh air pipe, a primary cloth bag filter, a primary mixing box, a middle-stage cloth bag filter, a primary surface cooler, a rotary dehumidifier, a secondary mixing box, a secondary surface cooler and an exhaust pipe; the air purification treatment system can improve the environment of a workshop, thereby reducing the possibility that the quality of products is influenced.

Description

Air purification treatment system

Technical Field

The invention relates to the technical field of environment adjusting systems, in particular to an air purification treatment system.

Background

In a precision manufacturing enterprise and a workshop, certain dust particles can be generated in the production process, and meanwhile, certain moisture content and heat productivity are generated, so that the indoor environment is poor, and the product quality is influenced.

Therefore, it is necessary to develop an air purification system that can improve the environment of a plant and reduce the possibility of the quality of the product being affected.

Disclosure of Invention

The invention aims to provide an air purification treatment system which can improve the environment of a workshop so as to reduce the possibility that the quality of a product is influenced.

The technical purpose of the invention is realized by the following technical scheme:

an air purification treatment system comprises a first base plate, a fresh air pipe, a primary cloth bag filter, a primary mixing box, a middle-stage cloth bag filter, a primary surface cooler, a rotary dehumidifier, a secondary mixing box, a secondary surface cooler and an exhaust pipe, wherein the primary cloth bag filter is arranged on the first base plate, the fresh air pipe is arranged at an air inlet of the primary cloth bag filter, the primary mixing box is arranged on the first base plate, the primary mixing box is provided with a first fresh air inlet, a first return air inlet and a first exhaust outlet, an air outlet of the primary cloth bag filter is connected with the first fresh air inlet, the middle-stage cloth bag filter is arranged on the first base plate, the first exhaust outlet is connected with an air inlet of the middle-stage cloth bag filter, the first surface cooling box is arranged on the first base plate, the primary surface cooler is arranged in the first surface cooling box, the first surface cooling inlet and the first surface cooling outlet are arranged on the first surface cooling box, the air outlet of the middle-stage cloth bag filter is connected with a first surface cooling inlet, the rotary dehumidifier is arranged on a first base plate, the secondary mixing box is arranged on the first base plate, the secondary mixing box is provided with a second fresh air inlet, a second return air inlet and a second air exhaust outlet, the dehumidification outlet of the rotary dehumidifier is connected with the second fresh air inlet, the second surface cooling box is arranged on the first base plate, the secondary surface cooler is arranged in the second surface cooling box, the second surface cooling inlet and the second surface cooling outlet are arranged on the second surface cooling box, the second air exhaust outlet is connected with the second surface cooling inlet, and the second surface cooling outlet is connected with an exhaust pipe.

By adopting the technical scheme, outdoor fresh air enters the primary cloth bag filter through the fresh air pipe to be primarily filtered, the primarily filtered fresh air enters the primary mixing box, indoor air enters the first mixing box through the first return air inlet to be mixed with the fresh air, the mixed air is filtered again through the middle-stage cloth bag filter, the filtered fresh air enters the first surface cooling box again to be surface cooled through the primary surface cooler, then is dehumidified through the rotary dehumidifier, the dehumidified air is heated and enters the secondary mixing box to be mixed with the indoor air, then enters the second surface cooling box to be cooled through the secondary surface cooler, and finally is discharged through the exhaust pipe, so that the indoor environment temperature is kept in a relatively stable state, the workshop environment is improved, and the possibility that the quality of products is influenced is reduced.

Further setting: the primary cloth bag filter comprises a primary box body, a primary ash receiving hopper, a primary ash blowing pipe, a primary fan and a primary dust removing cloth bag, wherein the primary box body is arranged on a first bottom plate through a primary supporting leg, the primary ash receiving hopper is connected to the bottom of the primary box body, a primary discharge hole is formed in the primary ash receiving hopper, a primary ash blocking plate used for sealing the primary discharge hole is connected to the primary ash receiving hopper in a sliding mode, a partition plate used for dividing the primary box body into a gas purifying chamber and a filter chamber is arranged in the primary box body, an air inlet of the primary cloth bag filter is arranged on the primary box body and connected with the filter chamber in a parallel mode, a through hole is formed in the partition plate and connected with a cage frame, the primary dust removing cloth bag is sleeved on the cage frame and located in the filter chamber, the primary fan is arranged on the primary box body and communicated with the gas purifying chamber, an, the primary soot blowing pipe is provided with a soot blowing hole facing a through hole in the partition plate, a first vibrating device is further arranged outside the primary soot receiving hopper and comprises a vibrating rod, a knocking rod and a first motor, a first connecting frame is arranged on the primary soot receiving hopper and is rotatably connected with the first connecting frame, one end of the knocking rod is arranged on the vibrating rod, and the first motor is arranged on the primary soot receiving hopper and is linked with the vibrating rod.

By adopting the technical scheme, when outdoor fresh air is filtered, the primary fan is started, the fresh air enters the filter chamber through the fresh air pipe, the fresh air is filtered in the filter chamber, the primary dust removal cloth bag filters dust and impurities in the fresh air, and the filtered fresh air enters the air purification chamber and is sucked away by the primary fan and enters the primary mixing box, so that the fresh air is filtered; when dust on the primary dust removing cloth bag is processed, gas is injected into the primary dust blowing pipe, the gas is discharged through a dust blowing hole of the primary dust blowing pipe and blown into the primary dust removing cloth bag, the dust attached to the primary dust removing cloth bag is blown down, the dust falls onto the primary dust receiving hopper, the primary dust shielding plate slides, a primary discharge hole is exposed, the dust and impurities in the primary dust receiving hopper are discharged, in the discharging process, the first motor is controlled to rotate forwards and backwards, the first motor drives the vibrating rod to rotate, the vibrating rod drives the knocking rod to rotate, the knocking rod strikes the side wall of the primary dust receiving hopper in the rotating process, the primary dust receiving hopper is made to vibrate, the dust attached to the side wall of the primary dust receiving hopper is made to vibrate, the dust can be better processed, and the dust can be processed more cleanly.

Further setting: first motor sets up to two, and first motor connects grey fill sliding fit with elementary, is equipped with first bevel gear on the first motor, and the both ends of vibrating arm are equipped with second bevel gear, first bevel gear and second bevel gear meshing, and pass through the fix with screw between first motor and the elementary grey fill that connects.

Through adopting above-mentioned technical scheme, when using, make first bevel gear and the meshing of second bevel gear on a first motor, first bevel gear and the second bevel gear separation on another first motor, when drive vibrating arm pivoted first motor breaks down, dismantle the nut of fixing first motor, pull first motor, make first motor keep away from the vibrating arm, second bevel gear and the first bevel gear separation on the first motor that breaks down, promote another first motor again, make the first bevel gear of connection on this first motor and the meshing of second bevel gear, fix on elementary ash receiving bucket through screw first motor, start first motor to can continue to drive the vibrating arm and rotate.

Further setting: the primary ash receiving hopper is provided with a first T-shaped strip, and the first T-shaped strip is in sliding fit with the first T-shaped strip.

Through adopting above-mentioned technical scheme, when removing first motor, first T-slot slides along first T shape strip to the moving direction to first motor leads, make first bevel gear on the first motor can be smooth with the meshing of second bevel gear, and the cooperation of first T-slot and first T shape strip can carry out preliminary location to first motor, connect it and elementary ash bucket to be connected, avoid under the condition that does not have the fix with screw, first motor drops.

Further setting: elementary draw runner that connects is equipped with on the ash bucket, is equipped with elementary spout on the elementary draw runner, elementary ash blocking plate and elementary spout sliding fit, the one end on the elementary spout is equipped with waist shape hole, is equipped with elementary steady rest on elementary ash bucket that connects, and the last rotation of elementary steady rest is connected with elementary pivot, and elementary handle is connected to the one end of elementary pivot, and the rotor arm is connected to the other end, the one end that the rotor arm deviates from elementary pivot rotates and is connected with the movable pulley, the movable pulley is in waist shape downthehole.

Through adopting above-mentioned technical scheme, rotate primary handle, primary handle drives primary pivot and rotates, and primary pivot drives the rotor arm and rotates, and the rotor arm beats the movable pulley and rotates, and the movable pulley removes in waist shape hole to drive the removal of primary dust shielding plate, change the relative position between primary dust shielding plate and the primary ash receiving bucket, realize opening and closing of primary dust shielding plate.

Further setting: the middle-stage cloth bag filter comprises a middle-stage box body, a middle-stage ash blowing pipe, a middle-stage ash receiving hopper, a middle-stage fan and a middle-stage dust removing cloth bag, wherein the middle-stage box body is arranged on a first bottom plate through a second supporting leg, the middle-stage ash receiving hopper is connected to the bottom of the middle-stage box body, a middle-stage discharge hole is formed in the middle-stage ash receiving hopper, a middle-stage ash shielding plate used for sealing the discharge hole is detachably connected to the middle-stage ash receiving hopper, a partition plate used for dividing the middle-stage box body into a gas purifying chamber and a filter chamber is arranged in the middle-stage box body, an air inlet of the middle-stage cloth bag filter is arranged on the middle-stage box body and communicated with the filter chamber, a through hole is formed in the partition plate, a cage rib is connected to the through hole, the middle-stage dust removing cloth bag is sleeved on the cage rib and is positioned in the filter chamber, the middle-stage fan is arranged on the, and the small ventilation holes of the middle-stage dust removal cloth bag are smaller than those of the primary dust removal cloth bag.

Through adopting above-mentioned technical scheme, compare with elementary sack filter, middle-level sack filter can filter less dust and impurity to the quality of indoor environment has further been guaranteed.

Further setting: a second vibration device is also arranged outside the middle-stage ash receiving hopper, the second vibration device comprises a second motor, a second base, a driving gear, a first driven gear, a second driven gear, a first connecting rod, a second connecting rod, a third connecting rod and a knocking arm, the second base is arranged on the middle-stage ash receiving bucket, the second motor is arranged on the second base, the driving gear is arranged on the second motor, the first driven gear and the second driven gear are rotatably connected with the second base, the driving gear is meshed with the first driven gear, the first driven gear is meshed with the second driven gear, the first connecting rod is connected to the first driven gear and the second driven gear, one end of the second connecting rod is hinged to the first connecting rod, the other end of the second connecting rod is hinged to the third connecting rod, one end of the third connecting rod, which deviates from the second connecting rod, is hinged to the second base, and the second connecting rod is connected with one end of the third connecting rod and is fixedly connected with a knocking arm.

By adopting the technical scheme, when dust attached to the intermediate dust receiving hopper is treated, the second motor is started, the second motor drives the driving gear to rotate, the rotating gear drives the first driven gear to be meshed in the rotating process, the first driven gear drives the second driven gear to rotate in the rotating process, the first driven gear and the second driven gear respectively drive the corresponding first connecting rods to rotate, the forward and reverse rotation of the second motor drives the two first connecting rods to rotate towards the mutually approaching direction or the mutually departing direction, the first connecting rods drive the second connecting rods to move in the rotating process, the third connecting rods move along with the movement of the second connecting rods, and the second connecting rod drives the knocking arm to move in the moving process, so that the knocking arm touches the middle-level ash receiving hopper, and the dust attached to the middle-level ash receiving hopper is knocked down, so that the dust attached to the middle-level ash receiving hopper is processed.

Further setting: and the intermediate ash receiving bucket and the primary ash receiving bucket are both provided with observation windows.

Through adopting above-mentioned technical scheme, the setting of observation window can connect the ash bucket to the middling and connect the dust volume in the ash bucket with elementary to observe, when the dust volume is more, can handle it, when the dust volume is less, can choose not to handle.

In conclusion, the invention has the following beneficial effects:

1. outdoor fresh air enters a primary cloth bag filter through a fresh air pipe to be primarily filtered, the primarily filtered fresh air enters a primary mixing box, indoor air enters a first mixing box through a first return air inlet to be mixed with the fresh air, the mixed air is filtered again through a middle-stage cloth bag filter, the filtered fresh air enters a first surface cooling box to be surface cooled through a primary surface cooler, then is dehumidified through a rotary dehumidifier, the dehumidified air is heated and enters a secondary mixing box to be mixed with the indoor air, then enters a second surface cooling box to be cooled through a secondary surface cooler, and finally is discharged through an exhaust pipe, so that the indoor environment temperature is kept in a relatively stable state, the workshop environment is improved, and the possibility that the quality of a product is influenced is reduced;

2. the first motor is controlled to rotate positively and negatively, the first motor drives the vibrating rod to rotate, the vibrating rod drives the knocking rod to rotate, and the knocking rod strikes the side wall of the primary ash receiving hopper in the rotating process to vibrate the primary ash receiving hopper, so that dust attached to the side wall of the primary ash receiving hopper is vibrated, the dust can be better treated, and the dust can be treated more cleanly;

3. compared with the primary cloth bag filter, the medium-grade cloth bag filter can filter smaller dust and impurities, so that the quality of the indoor environment is further ensured.

Drawings

FIG. 1 is a schematic diagram of a structure for embodying the present invention in this embodiment;

FIG. 2 is a schematic diagram of the primary bag filter of the present embodiment;

FIG. 3 is a schematic structural view for showing the positional relationship between the partition plate and the primary tank in the present embodiment;

fig. 4 is a schematic structural diagram for embodying the first vibrating device in the present embodiment;

fig. 5 is a schematic structural diagram for showing the positional relationship between the primary rotating shaft and the rotating arm in the present embodiment;

FIG. 6 is a schematic structural view of a middle-stage bag filter in the present embodiment;

FIG. 7 is a schematic structural diagram of a middle-stage dust-collecting bag and a middle-stage box body in the present embodiment;

FIG. 8 is a schematic structural diagram for showing the positional relationship between the observation window and the middle-stage ash hopper in the present embodiment;

fig. 9 is a schematic structural diagram for showing a positional relationship between the first driven gear and the second driven gear in the present embodiment;

fig. 10 is a schematic structural diagram for embodying the second vibration device in the present embodiment.

In the figure, 1, a first base plate; 2. a fresh air duct; 3. a primary cloth bag filter; 4. a primary mixing tank; 5. a medium grade cloth bag filter; 6. a primary surface cooler; 7. a rotary dehumidifier; 8. a secondary mixing box; 9. a secondary surface cooler; 10. an exhaust duct; 11. a primary box; 12. a primary ash receiving hopper; 13. a primary fan; 14. a primary dust removal cloth bag; 15. a primary leg; 16. an observation window; 17. a partition plate; 18. a gas purifying chamber; 19. a filtering chamber; 20. a through hole; 21. cage bones; 22. a primary soot masking plate; 23. a primary chute; 24. a waist-shaped hole; 25. a primary stabilizer frame; 26. a primary shaft; 27. a primary handle; 28. a rotating arm; 29. a sliding wheel; 30. a first vibrating device; 31. a vibrating rod; 32. a knock bar; 33. a first motor; 34. a first connecting frame; 35. a first base; 36. a first T-shaped slot; 37. a first T-bar; 38. a first bevel gear; 39. a second bevel gear; 40. a first fan; 41. a first communication pipe; 42. a middle-level box body; 43. a middle-stage soot blower; 44. the middle level is connected with an ash bucket; 45. a medium-grade fan; 46. a middle dust removal cloth bag; 47. a second leg; 48. a middle-grade dust shielding plate; 49. a wind transmitting pipe; 50. a second vibrating device; 51. a second motor; 52. a second base; 53. a driving gear; 54. a first driven gear; 55. a second driven gear; 56. a first link; 57. a second link; 58. a third link; 59. a knock arm; 60. a drive shaft; 61. a first surface cooling box; 62. a second communicating pipe; 63. a second fan; 64. a second surface cooling box; 65. a primary lance tube; 66. a primary slider.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example (b): an air purification treatment system, as shown in figure 1, comprises a first bottom plate 1, a fresh air pipe 2, a primary cloth bag filter 3, a primary mixing box 4, a secondary cloth bag filter 5, a primary surface cooler 6, a rotary dehumidifier 7, a secondary mixing box 8, a secondary surface cooler 9 and an exhaust pipe 10.

As shown in fig. 1 and 2, the primary bag filter 3 is arranged on the first bottom plate 1, the fresh air pipe 2 is arranged at the air inlet of the primary bag filter 3, the primary bag filter 3 comprises a primary box body 11, a primary blowing pipe 65, a primary ash receiving hopper 12, a primary fan 13 and a primary dust removing bag 14, the primary box body 11 is arranged on the first bottom plate 1 through primary support legs 15, the primary ash receiving hopper 12 is connected to the bottom of the primary box body 11, as shown in fig. 3 and 4, an observation window 16 is arranged on the primary ash receiving hopper 12, a partition plate 17 for dividing the primary box body 11 into a clean air chamber 18 and a filter chamber 19 is arranged in the primary box body 11, as shown in fig. 2 and 3, the air inlet of the primary bag filter 3 is arranged on the primary box body 11 and connected with the filter chamber 19, the fresh air pipe 2 is connected with the primary box body 11 and connected with the filter chamber 19 through the air inlet of, one end of the fresh air pipe 2, which is far away from the primary box body 11, is positioned outside the workshop, the partition plate 17 is provided with a through hole 20 and an elevator cage 21, the primary dust removal cloth bag 14 is sleeved on the elevator cage 21 and is positioned in the filter chamber 19, the bag mouth of the primary dust removal cloth bag 14 faces the through hole 20, the primary fan 13 is arranged on the primary box body 11 and is communicated with the air purifying chamber 18, the primary soot blowing pipe 65 is arranged on the primary box body 11 and is positioned in the air purifying chamber 18, and the soot blowing hole of the primary soot blowing pipe 65 faces the through hole 20 on the.

As shown in fig. 4 and 5, a primary discharge port is arranged on the primary ash receiving hopper 12, a primary ash blocking plate 22 for closing the primary discharge port is slidably connected onto the primary ash receiving hopper 12, a primary slide bar 66 is arranged on the primary ash receiving hopper 12, a primary slide groove 23 is arranged on the primary slide bar 66, the primary ash blocking plate 22 is in sliding fit with the primary slide groove 23, a kidney-shaped hole 24 is arranged at one end of the primary slide groove 23, a primary stabilizing frame 25 is arranged on the primary ash receiving hopper 12, a primary rotating shaft 26 is rotatably connected onto the primary stabilizing frame 25, a primary handle 27 is connected to one end of the primary rotating shaft 26, the other end of the primary rotating shaft 26 is connected with a rotating arm 28, one end of the rotating arm 28 departing from the primary rotating shaft 26 is rotatably connected with a.

As shown in fig. 4 and 5, a first vibration device 30 is further disposed outside the primary ash receiving hopper 12, the first vibration device 30 includes a vibration rod 31, a knocking rod 32 and a first motor 33, the primary ash receiving hopper 12 is provided with a first connecting frame 34, the vibration rod 31 is rotatably connected with the first connecting frame 34, the knocking rod 32 is provided with three parts, one end of the knocking rod 32 is disposed on the vibration rod 31, the first motor 33 is disposed on the primary ash receiving hopper 12 and is linked with the vibration rod 31, the first motor 33 is provided with two parts, the first motor 33 is in sliding fit with the primary ash receiving hopper 12, the first motor 33 is provided with a first base 35, the first base 35 is provided with a first T-shaped groove 36, the primary ash receiving hopper 12 is provided with a first T-shaped strip 37, the first T-shaped groove 36 is in sliding fit with the first T-shaped strip 37, the first motor 33 is fixed with the primary ash receiving hopper 12 by screws, the screws penetrate through the first base 35 and are screwed on the primary ash receiving hopper 12, the first motor 33 is provided with a first bevel gear 38, two ends of the vibrating rod 31 are provided with second bevel gears 39, the first bevel gears 38 are meshed with the second bevel gears 39, when in use, one first motor 33 is linked with the vibrating rod 31, the first bevel gear 38 on the other first motor 33 is separated from the second bevel gear 39, and the other first motor 33 is used as a standby.

As shown in fig. 1 and 2, the primary mixing box 4 is disposed on the first bottom plate 1, the primary mixing box 4 is provided with a first fresh air inlet, a first return air inlet and a first exhaust outlet, the first return air inlet is provided with a first fan 40, and an air outlet of the primary fan 13 on the primary cloth bag filter 3 is connected to the first fresh air inlet through a first communication pipe 41.

As shown in fig. 6 and 7, the middle stage cloth bag filter 5 is disposed on the first bottom plate 1, the first exhaust outlet is connected with the air inlet of the middle stage cloth bag filter 5, the middle stage cloth bag filter 5 comprises a middle stage box body 42, a middle stage dust blowing pipe 43, a middle stage ash receiving bucket 44, a middle stage fan 45 and a middle stage dust removing cloth bag 46, the middle stage box body 42 is disposed on the first bottom plate 1 through a second supporting leg 47, the middle stage ash receiving bucket 44 is connected with the bottom of the middle stage box body 42, as shown in fig. 7 and 8, the middle stage ash receiving bucket 44 is provided with an observation window 16 and a middle stage discharge port, the middle stage ash receiving bucket 44 is detachably connected with a middle stage ash shielding plate 48 for sealing the discharge port through a screw, a partition plate 17 for dividing the middle stage box body 42 into an air purifying chamber 18 and a filter chamber 19 is disposed in the middle stage box body 42, the air inlet of the middle stage cloth bag filter 5 is disposed on the middle stage box, the first exhaust outlet is communicated with the air inlet of the middle-stage cloth bag filter 5 through an air transmission pipe 49, as shown in fig. 6 and 7, a partition plate 17 is provided with a through hole 20 and an encumbrance 21, a middle-stage dust removal cloth bag 46 is sleeved on the encumbrance 21 and is positioned in a filter chamber 19, the bag mouth of the middle-stage dust removal cloth bag 46 faces the through hole 20, a middle-stage fan 45 is arranged on a middle-stage box body 42 and is communicated with an air purifying chamber 18, a middle-stage soot blowing pipe 43 is arranged on the middle-stage box body 42 and is positioned in the air purifying chamber 18, and the soot blowing hole of the middle-stage soot blowing pipe 43 faces the through hole 20 on the partition plate 17, as shown in fig. 2 and 7, the ventilation small hole of the middle-stage dust removal cloth bag 46 is smaller than the ventilation small hole (.

As shown in fig. 9 and 10, a second vibration device 50 is further disposed outside the middle-stage ash receiving bucket 44, the second vibration device 50 includes a second motor 51, a second base 52, a driving gear 53, a first driven gear 54, a second driven gear 55, a first connecting rod 56, a second connecting rod 57, a third connecting rod 58 and a knocking arm 59, the second base 52 is disposed on the middle-stage ash receiving bucket 44, the second motor 51 is disposed on the second base 52, an output shaft of the second motor 51 penetrates through the second base 52, the driving gear 53 is disposed on the second motor 51, the first driven gear 54 and the second driven gear 55 are both rotatably connected with the second base 52 through a transmission shaft 60, the driving gear 53 is engaged with the first driven gear 54, the first driven gear 54 is engaged with the second driven gear 55, the first driven gear 54 is equal in size to the second driven gear 55, the first connecting rod 56 is both connected with the first driven gear 54 and the second driven gear 55, one end of the second connecting rod 57 is hinged with the first connecting rod 56, the other end is hinged with the third connecting rod 58, one end of the third connecting rod 58, which is far away from the second connecting rod 57, is hinged with the second base 52, and one end of the second connecting rod 57, which is connected with the third connecting rod 58, is fixedly connected with the knocking arm 59.

As shown in fig. 1 and fig. 6, a first surface cooling box 61 is arranged on a first base plate 1, a primary surface cooler 6 is arranged in the first surface cooling box 61, a first surface cooling inlet and a first surface cooling outlet are arranged on the first surface cooling box 61, the primary surface cooler 6 is arranged between the first surface cooling inlet and the first surface cooling outlet in the horizontal direction, an air outlet of a middle-stage fan 45 on a middle-stage cloth bag filter 5 is connected with the first surface cooling inlet through a second communicating pipe 62, a rotary dehumidifier 7 is arranged on the first base plate 1, a secondary mixing box 8 is arranged on the first base plate 1, a second fresh air inlet, a second return air inlet and a second exhaust outlet are arranged on the secondary mixing box 8, a dehumidification outlet of the rotary dehumidifier 7 is connected with the second fresh air inlet, a second fan 63 is arranged at the second return air inlet, a second surface cooling box 64 is arranged on the first base plate 1, the secondary surface cooler is arranged in the second surface cooling box 64, the second surface cooling box 64 is provided with a second surface cooling inlet and a second surface cooling outlet, the secondary mixing box 8 is attached to the second surface cooling box 64, the second air exhaust outlet is connected with the second surface cooling inlet, and the second surface cooling outlet is connected with the air exhaust pipe 10.

The implementation process comprises the following steps: outdoor fresh air enters a primary box body 11 of a primary cloth bag filter 3 through a fresh air pipe 2, a primary fan 13 is started, the fresh air is filtered in a filter chamber 19, a primary dust removal cloth bag 14 filters dust and impurities in the fresh air, the filtered fresh air enters a gas purification chamber 18 and is sucked away by the primary fan 13, the fresh air enters a primary mixing box 4 through a first communicating pipe 41, indoor air is sucked into the first mixing box by a first fan 40 and is mixed with the fresh air, the mixed air enters a middle-stage cloth bag filter 5 for secondary filtering, a first exhaust outlet of the mixed air is formed in a homostructural mode and enters a middle-stage box body 42, a middle-stage fan 45 is started, the mixed air is filtered in the filter chamber 19, dust in the mixed air is filtered by a middle-stage dust removal cloth bag 46, the filtered air enters a first surface cooling box 61 through a second communicating pipe and is cooled in the first surface cooling box 61, then dehumidified by the rotary dehumidifier 7, the dehumidified air enters the secondary mixing box 8, the second fan 63 is started to suck indoor air into the second mixing box to be mixed with the dehumidified air, then the air enters the second surface cooling box 64 to be cooled by the secondary surface cooler 9, and finally the air is discharged through the exhaust pipe 10, so that the indoor environment temperature is kept in a relatively stable state, the workshop environment is improved, and the possibility that the quality of products is influenced is reduced.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims

1. An air purification treatment system, characterized in that: comprises a first base plate (1), a fresh air pipe (2), a primary cloth bag filter (3), a primary mixing box (4), a middle-stage cloth bag filter (5), a primary surface cooler (6), a rotary dehumidifier (7), a secondary mixing box (8), a secondary surface cooler (9) and an exhaust pipe (10), wherein the primary cloth bag filter (3) is arranged on the first base plate (1), the fresh air pipe (2) is arranged at an air inlet of the primary cloth bag filter (3), the primary mixing box (4) is arranged on the first base plate (1), a first fresh air inlet, a first return air inlet and a first exhaust outlet are arranged on the primary mixing box (4), an air outlet of the primary cloth bag filter (3) is connected with the first fresh air inlet, the middle-stage cloth bag filter (5) is arranged on the first base plate (1), the first exhaust outlet is connected with an air inlet of the middle-stage cloth bag filter (5), a first surface cooling box (61) is arranged on the first bottom plate (1), a primary surface cooling device (6) is arranged in the first surface cooling box (61), a first surface cooling inlet and a first surface cooling outlet are arranged on the first surface cooling box (61), an air outlet of the middle-stage cloth bag filter (5) is connected with the first surface cooling inlet, a rotary dehumidifier (7) is arranged on the first bottom plate (1), a secondary mixing box (8) is arranged on the first bottom plate (1), a second fresh air inlet, a second return air inlet and a second air exhaust outlet are arranged on the secondary mixing box (8), a dehumidification outlet of the rotary dehumidifier (7) is connected with the second fresh air inlet, a second surface cooling box (64) is arranged on the first bottom plate (1), a secondary surface cooling device (9) is arranged in the second surface cooling box (64), a second surface cooling inlet and a second surface cooling outlet are arranged on the second surface cooling box (64), and a second air exhaust outlet is connected with the second surface cooling inlet, the second surface cooling outlet is connected with an exhaust pipe (10); the primary cloth bag filter (3) comprises a primary box body (11), a primary ash receiving hopper (12), a primary ash blowing pipe (65), a primary fan (13) and a primary dust removing cloth bag (14), wherein the primary box body (11) is arranged on a first bottom plate (1) through primary support legs (15), the primary ash receiving hopper (12) is connected to the bottom of the primary box body (11), a primary discharge hole is formed in the primary ash receiving hopper (12), a primary ash blocking plate (22) used for sealing the primary discharge hole is connected onto the primary ash receiving hopper (12) in a sliding mode, a partition plate (17) used for dividing the primary box body (11) into a gas purifying chamber (18) and a filter chamber (19) is arranged in the primary box body (11), a primary air inlet of the primary cloth bag filter (3) is formed in the primary box body (11) and is connected with the filter chamber (19) in a parallel mode, through holes (20) are formed in the partition plate (17, the primary dust removing cloth bag (14) is sleeved on the cage ribs (21) and is positioned in the filter chamber (19), the primary fan (13) is arranged on the primary box body (11) and is communicated with the air purifying chamber (18), the air outlet of the primary fan (13) is connected with the first fresh air inlet, the primary soot blowing pipe (65) is arranged on the primary box body (11) and is positioned in the air purifying chamber (18), the soot blowing hole of the primary soot blowing pipe (65) faces to the through hole (20) on the partition plate (17), the primary soot receiving hopper (12) is also externally provided with a first vibrating device (30), the first vibration device (30) comprises a vibration rod (31), a knocking rod (32) and a first motor (33), a first connecting frame (34) is arranged on the primary ash receiving hopper (12), the vibration rod (31) is rotatably connected with the first connecting frame (34), one end of the knocking rod (32) is arranged on the vibration rod (31), and the first motor (33) is arranged on the primary ash receiving hopper (12) and is linked with the vibration rod (31); elementary draw runner (66) are equipped with on elementary ash bucket (12), be equipped with elementary spout (23) on elementary draw runner (66), elementary board (22) and elementary spout (23) sliding fit hide, one end on elementary spout (23) is equipped with waist shape hole (24), is equipped with elementary steady rest (25) on elementary ash bucket (12), rotates on elementary steady rest (25) and is connected with elementary pivot (26), and elementary handle (27) are connected to the one end of elementary pivot (26), and rotor arm (28) is connected to the other end, rotor arm (28) deviate from the one end rotation of elementary pivot (26) and are connected with movable pulley (29), movable pulley (29) are in waist shape hole (24).

2. The air purification treatment system according to claim 1, wherein: the two first motors (33) are arranged, the first motors (33) are in sliding fit with the primary ash receiving bucket (12), first bevel gears (38) are arranged on the first motors (33), second bevel gears (39) are arranged at two ends of the vibrating rod (31), the first bevel gears (38) are meshed with the second bevel gears (39), and the first motors (33) and the primary ash receiving bucket (12) are fixed through screws.

3. The air purification treatment system according to claim 2, wherein: be equipped with first frame (35) on first motor (33), be equipped with first T shape groove (36) on first frame (35), be equipped with first T shape strip (37) on elementary ash receiving bucket (12), first T shape groove (36) and first T shape strip (37) sliding fit.

4. The air purification treatment system according to claim 1, wherein: the middle-stage cloth bag filter (5) comprises a middle-stage box body (42), a middle-stage soot blowing pipe (43), a middle-stage soot receiving hopper (44), a middle-stage fan (45) and a middle-stage dust removing cloth bag (46), wherein the middle-stage box body (42) is arranged on the first bottom plate (1) through a second supporting leg (47), the middle-stage soot receiving hopper (44) is connected to the bottom of the middle-stage box body (42), a middle-stage discharge hole is formed in the middle-stage soot receiving hopper (44), a middle-stage soot shielding plate (48) used for sealing the discharge hole is detachably connected to the middle-stage soot receiving hopper (44), a partition plate (17) used for dividing the middle-stage box body (42) into a gas purifying chamber (18) and a filter chamber (19) is arranged in the middle-stage box body (42), a gas inlet of the middle-stage cloth bag filter (5) is arranged on the middle-stage box body (42) and communicated with the filter chamber (19), a through hole (20) is formed, the middle-stage dust removing cloth bag (46) is sleeved on the cage ribs (21) and is positioned in the filtering chamber (19), the middle-stage fan (45) is arranged on the middle-stage box body (42) and is communicated with the air purifying chamber (18), the middle-stage soot blowing pipe (43) is arranged on the middle-stage box body (42) and is positioned in the air purifying chamber (18), the soot blowing hole of the middle-stage soot blowing pipe (43) faces to the through hole (20) on the partition plate (17), and the ventilation small hole of the middle-stage dust removing cloth bag (46) is smaller than the ventilation small hole of the primary dust removing cloth bag (14).

5. The air purification treatment system according to claim 4, wherein: a second vibration device (50) is further arranged outside the middle-stage ash receiving hopper (44), the second vibration device (50) comprises a second motor (51), a second base (52), a driving gear (53), a first driven gear (54), a second driven gear (55), a first connecting rod (56), a second connecting rod (57), a third connecting rod (58) and a knocking arm (59), the second base (52) is arranged on the middle-stage ash receiving hopper (44), the second motor (51) is arranged on the second base (52), the driving gear (53) is arranged on the second motor (51), the first driven gear (54) and the second driven gear (55) are both rotatably connected with the second base (52), the driving gear (53) is meshed with the first driven gear (54), the first driven gear (54) is meshed with the second driven gear (55), and the first connecting rod (56) is connected with the first driven gear (54) and the second driven gear (55), one end of the second connecting rod (57) is hinged with the first connecting rod (56), the other end of the second connecting rod (57) is hinged with the third connecting rod (58), one end of the third connecting rod (58) departing from the second connecting rod (57) is hinged with the second base (52), and one end of the second connecting rod (57) connected with the third connecting rod (58) is fixedly connected with the knocking arm (59).

6. The air purification treatment system according to claim 4, wherein: and the intermediate ash receiving hopper (44) and the primary ash receiving hopper (12) are both provided with observation windows (16).