CN118122060A - Self-excitation type dust removing device with flow monitoring function - Google Patents

Abstract

The invention belongs to the field of self-excitation type dust removal devices with flow monitoring, and particularly relates to a self-excitation type dust removal device with flow monitoring, which comprises an outer shell, wherein a water storage tank is arranged at the bottom of the outer shell, a water collecting tank is arranged above the water storage tank, a flow guide pipe is arranged at the rear of the water collecting tank, the flow guide pipe and the water storage tank are mutually communicated, a pressure sensor and a connecting pipeline are arranged in the water collecting tank, the weight of water can be detected, the pressure sensor is connected in the water collecting tank, the flow of the water in the water collecting tank and the flow guide pipe is calculated through the obtained weight data, so that the water quantity in the water collecting tank and the pressure sensor can be confirmed, the water quantity in the water tank confirmation device can be displayed through the control center, the time in work is saved, and the pressure sensor is connected with the control center through the connecting pipeline, so that the accuracy and the reliability of the pressure sensor are improved.

Description

Self-excitation type dust removing device with flow monitoring function

Technical Field

The invention relates to the field of self-excitation type dust removal, in particular to a self-excitation type dust removal device with flow monitoring.

Background

The polishing device is a mechanical device for grinding, polishing or smoothing the surface of an object, and is widely applied to the fields of manufacturing industry, construction industry, industrial arts and the like, but a large amount of dust can be generated in the use process of the polishing device, so that the dust generated by polishing needs to be purified by installing the dust removing device.

Therefore, the existing self-excited dust removal device needs to observe the water quantity of the water tank through staff in the process of purifying dust generated by polishing, the use mode is inconvenient, and the observation mode through the flow sensor is easy to cause blockage due to the dust.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the application and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the application and in the title of the application, which may not be used to limit the scope of the application.

Therefore, the technical problems to be solved by the invention are as follows: the existing self-excitation type dust removing device is inconvenient in use because the water quantity of the water tank needs to be observed by staff in the process of purifying dust generated by polishing, and the observation mode by the flow sensor is easy to block due to the dust, so that the use is inconvenient.

In order to solve the technical problems, the invention provides the following technical scheme: the self-excitation type dust removing device with the flow monitoring comprises an outer shell, wherein the flow monitoring calculation mode is the product of the cross section area of water flowing out and the width of water; the water storage tank is installed to the bottom of shell body, the water catch bowl is installed to the top of water catch bowl, the honeycomb duct is installed at the rear of water catch bowl, circulate each other between water catch bowl, honeycomb duct and the water catch bowl, the place ahead mid-mounting of shell body has control center, pressure sensor is installed to the inner wall of water catch bowl, connecting tube is installed in pressure sensor's rear connection, pressure sensor passes through connecting tube and control center interconnect.

Preferably, the installing support is installed to the middle part below of shell, the emery wheel is all installed to the below left and right sides of shell, the dust blocking platform is installed to the below of emery wheel, the dust blocking wheel of centre of a circle coincidence is installed to the top of emery wheel, the rear fixed mounting of dust blocking wheel has the deflector, the equal fixed mounting in left and right sides of deflector has the side shield, the side shield is "style of calligraphy", water mist separator is installed to the top of water catch bowl, the side slide is all installed to the left and right sides of water mist separator, the separation strip is installed to water mist separator's internal array, the spout has been seted up with the position that the inner wall of shell corresponds with the side slide, the top dust removal case is installed to the top of water mist separator, the air intake has been seted up to the right side below of top dust removal case, the internally mounted of top dust removal case has the center baffle, the bottom of center baffle is equipped with the lower air flue is opened to the internal array, the top is installed to the fan blade top air flue is installed on the top air flue, the top air flue is installed to the top air flue is opened to the top air flue.

Preferably, the guide plate and the side baffle are fixed with each other, the side baffle and the water collecting tank are fixed with each other, and the guide plate and the water collecting tank are fixed with each other.

Preferably, the water storage tank forms a circulation structure between the side baffle and the water mist separator, and the height of the side baffle is larger than that of the water collection tank.

Preferably, the water collecting tank and the water storage tank form a circulation structure through the guide pipe, and the pressure sensor is connected with the control center through a connecting pipeline.

Preferably, the water mist separator and the outer shell form a detachable structure through the cooperation between the side sliding strips and the sliding grooves, and the water mist separator forms a sliding structure through the side sliding strips and the sliding grooves.

Preferably, the separation strips are distributed in an array in the water mist separator, and the separation strips are of a multi-layer structure.

Preferably, the dust accumulation strips are arranged in an array in the lower air duct, and the air inlet forms a circulation structure through the lower air duct and the air outlet.

Preferably, the length of the central partition plate is smaller than the length of the top dust removing box, and the width of the central partition plate is equal to the width of the top dust removing box.

The invention has the following beneficial effects:

According to the invention, the pressure sensor and the connecting pipeline are arranged, water in the water mist separated by the water mist separator can drop into the water collecting tank along with the inner wall of the side slope to collect the water, then the collected water returns to the water storage tank through the guide pipe to be recycled, so that the water consumption in the device can be reduced, water resources can be reused, meanwhile, the pressure sensor is also arranged in the water collecting tank to detect the weight of the water, then the water quantity in the water collecting tank and the guide pipe is confirmed by the connecting pipeline and the obtained weight data is used for calculating the flow of the water in the water collecting tank and the guide pipe, the water quantity in the water collecting tank and the pressure sensor can be displayed by the control center, the water quantity in the water tank confirmation device is prevented from being watched artificially, the time in the work is saved, and the pressure sensor is connected with the control center through the connecting pipeline to improve the accuracy and reliability of the pressure sensor, and the real-time monitoring and control of the connecting pipeline are also convenient, and the safety and the efficiency of the whole dust removal of the device are improved.

According to the invention, the guide plate and the side baffle are arranged, so that dust generated at the grinding wheel can be guided into the water storage tank to remove dust in the use process, after the dust is generated at the grinding wheel, the dust can move downwards along the direction of the guide plate and enter the water storage tank through the inclined guide plate at the rear of the grinding wheel, water contained in the water storage tank collides with the dust to generate water mist, one part of the dust can enter the water storage tank to form slurry, and one part of the dust can be mixed with the water mist to move continuously.

According to the invention, the side sliding strips are arranged, so that the water mist separator can be installed in the sliding groove in a sliding manner through the side sliding strips at the side in the using process, the water mist separator can be conveniently taken out for cleaning, when the water mist separator separates air clusters, part of dust can be adhered in the water mist separator to influence the subsequent dust removal efficiency, and the water mist separator can be conveniently cleaned and replaced through the side sliding strips and the sliding groove, so that the integral dust removal efficiency of the device is improved.

According to the invention, the top dust removing box is arranged, the driving motor drives the fan blades to rotate at the height inside the device, then negative pressure is generated at the position below the fan blades, power is provided for the continuous upward movement of the air mass, the air mass passing through the separating strips is driven by the negative pressure to continue upward, and then enters the lower air duct through the air inlet.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

Fig. 1 is a schematic diagram of the overall structure of the self-excited dust collector with flow monitoring according to the present invention.

Fig. 2 is a schematic diagram of the overall cross-sectional structure of the self-excited dust collector with flow monitoring according to the present invention.

Fig. 3 is a schematic diagram of a cross-sectional structure of an outer casing of the self-excited dust removing device with flow monitoring.

Fig. 4 is a schematic cross-sectional rear view structure of an outer casing of the self-excited dust removing device with flow monitoring according to the present invention.

Fig. 5 is a schematic diagram of the internal structure of the self-excited dust collector with flow monitoring according to the present invention.

Fig. 6 is a schematic diagram of the internal rear view structure of the self-excited dust collector with flow monitoring according to the present invention.

Fig. 7 is a schematic diagram of a bottom dust removing structure of the self-excited dust removing device with flow monitoring according to the present invention.

Fig. 8 is a schematic diagram of a bottom dedusting rear view structure of the self-excited dedusting device with flow monitoring according to the present invention.

Fig. 9 is a schematic diagram of the internal structure of a dust box with a self-excited dust collector with flow monitoring according to the present invention.

In the figure: 1. an outer housing; 2. a mounting bracket; 3. grinding wheel; 4. an ash blocking table; 5. an ash blocking wheel; 6. a water storage tank; 7. a guide plate; 8. side baffles; 9. a water collection tank; 10. a flow guiding pipe; 11. a pressure sensor; 12. a water mist separator; 13. a side slide bar; 14. separating the strips; 15. a chute; 16. a top dust box; 17. an air inlet; 18. a lower air duct; 19. dust accumulation strips; 20. a central partition; 21. a fan blade; 22. an air outlet; 23. an air outlet pipe; 24. a driving motor; 25. a control center; 26. disassembling and assembling the baffle; 27. and connecting pipelines.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

Example 1: according to a first embodiment of the invention, the self-excited dust collector with flow monitoring is provided, and comprises an outer shell 1, wherein the flow monitoring calculation mode is the product of the cross section area of water flowing out and the width of water, the cross section area, the width of water and the flow rate of water are in direct proportion, a water storage tank 6 is arranged at the bottom of the outer shell 1, a water collecting tank 9 is arranged above the water storage tank 6, a flow guide pipe 10 is arranged at the rear of the water collecting tank 9, the flow guide pipe 10 and the water storage tank 6 are in mutual communication, a control center 25 is arranged in the middle of the front of the outer shell 1, a pressure sensor 11 is arranged on the inner wall of the water collecting tank 9, a connecting pipeline 27 is connected at the rear of the pressure sensor 11, and the pressure sensor 11 is connected with the control center 25 through the connecting pipeline 27.

Example 2: the present embodiment is based on the previous embodiment, and is different from the previous embodiment in that the present embodiment provides a self-excited dust removing device with flow monitoring, specifically.

The installation support 2 is installed to the middle part below of shell body 1, the emery wheel 3 is all installed to the below left and right sides of shell body 1, ash blocking table 4 is installed to the below of emery wheel 3, the ash blocking wheel 5 of centre of a circle coincidence is installed to the top of emery wheel 3, the rear fixed mounting of ash blocking wheel 5 has deflector 7, the side shield 8 is all fixed mounting in the left and right sides of deflector 7, side shield 8 is "in the shape of a half, water smoke separator 12 is installed to the top of water catch bowl 9, side slide 13 is all installed to the left and right sides of water smoke separator 12, separation strip 14 is installed to the inner array of water smoke separator 12, the spout 15 has been seted up to the position that the inner wall of shell body 1 corresponds with side slide 13, the top dust removal baffle 26 is installed to the position that the right side of shell body 1 corresponds with water smoke separator 12, top dust removal case 16 is installed to the top dust removal case 16, air intake 17 has been seted up to the right side below deflector 7, the internally mounted of top dust removal case 16 has center baffle 20, the bottom of center baffle 20 has been seted up down wind channel 18, the wind channel 18 is installed to the inside of fan blade 18, the top of fan blade 20 has wind channel 22 has been installed to the top of fan blade 20, the top of fan blade 20 has the top of wind channel 20 has been installed on the top of wind channel 20, the top of wind channel 20 has been installed on the top wind channel of wind channel 20.

Example 3: the present embodiment is based on the previous embodiment, and is different from the previous embodiment in that the present embodiment provides a bottom dust removing structure of a self-excited dust removing device with flow monitoring, and in particular, the bottom dust removing structure is provided with a self-excited dust removing device.

The guide plate 7 and the side baffle plates 8 are mutually fixed, the side baffle plates 8 and the water collecting tank 9 are mutually fixed, the guide plate 7 and the water collecting tank 9 are mutually fixed, dust generated at the position of the grinding wheel 3 can be guided into the water storage tank 6 to be removed in the use process, after the dust is generated at the position of the grinding wheel 3, the dust can move downwards along the direction of the guide plate 7 to enter the water storage tank 6, then water contained in the water storage tank 6 collides with the dust to generate water mist, part of the dust can enter the water storage tank 6 to form slurry, part of the dust can be mixed with the water mist to move continuously, and the water collecting tank 9 forms a sealing structure through the guide plate 7 and the side baffle plates 8 and the water storage tank 6 because the guide plate 7 and the water collecting tank 9 are mutually fixed, and the water mist generated in the water storage tank 6 can only move upwards through the space inside the side baffle plates 8 in a square shape, and then the subsequent dust removal purification is performed.

The water storage tank 6 passes through the side baffle 8 and forms the circulation structure with water smoke separator 12, the height of side baffle 8 is greater than the height of water catch bowl 9, because deflector 7 is fixed each other with side baffle 8 and water catch bowl 9 respectively in the use, simultaneously side baffle 8 and water catch bowl 9 are fixed each other, consequently, water catch bowl 9 has passed through deflector 7 and between side baffle 8 and the water storage tank 6 and has formed seal structure, the water smoke that produces in water storage tank 6 just can upwards move through the space in side baffle 8 of the style of calligraphy, then carry out subsequent dust removal purification, and because the height of side baffle 8 is greater than the height of water catch bowl 9, can avoid the air pocket that upwards moves directly to enter into the inside of water catch bowl 9, then the water mixture of water inside of water catch bowl 9 forms the mud, lead to the jam of honeycomb duct 10 when the inside water catch bowl 9 enters into the inside of water storage tank 6 through honeycomb duct 10 and circulates, the air pocket is along with higher side baffle 8 upwards moves through the inside of water smoke separator 12, the effect in the inside through water smoke separator 12 separates the water in the air pocket to guarantee that the clean moisture in the exhaust does not have.

Example 4: the present embodiment is based on the previous embodiment, and is different from the previous embodiment in that the present embodiment provides a flow monitoring structure of a self-excited dust collector with flow monitoring, specifically.

The water collecting tank 9 forms a circulation structure through the guide pipe 10 and the water storage tank 6, the pressure sensor 11 is connected with the control center 25 through the connecting pipeline 27, water in water mist separated by the water mist separator 12 can fall into the water collecting tank 9 along with the inner wall inclined sideways to be collected, then the collected water returns to the water storage tank 6 through the guide pipe 10 to be recycled, the consumption of water in the device can be reduced, water resources can be reused, meanwhile, the pressure sensor 11 is further arranged in the water collecting tank 9 and can detect the weight of the water, then the connecting pipeline 27 is connected with the control center 25, the flow of the water in the water collecting tank 9 and the guide pipe 10 is calculated through the obtained weight data, so that the water quantity in the water collecting tank 9 and the pressure sensor 11 is confirmed, the control center 25 can display the water quantity in the water tank confirmation device through artificial observation, the time in work is saved, the pressure sensor 11 is connected with the control center 25 through the connecting pipeline 27, the accuracy and the reliability of the pressure sensor 11 can be improved, and the whole dust collection efficiency of the device is also convenient for the control center 25 to monitor and control the connecting pipeline 27 in real time.

Example 5: the embodiment is based on the previous embodiment, and is different from the previous embodiment in that the embodiment provides a water mist separation structure of a self-excited dust collector with flow monitoring, and the water mist separation structure is specific.

The water smoke separator 12 forms detachable structure through cooperation between side slide bar 13 and spout 15 and shell body 1, the water smoke separator 12 forms sliding structure through between side slide bar 13 and the spout 15, in the use water smoke separator 12 can be installed through the inside slip of side slide bar 13 at spout 15, conveniently take out water smoke separator 12 and clean, water smoke separator 12 is when separating the air mass, partial dust can adhere in water smoke separator 12's inside, influence follow-up dust collection efficiency, can dismantle through side slide bar 13 and spout 15, just convenient clean change to water smoke separator 12, improve the holistic dust collection efficiency of device.

The separation strips 14 are distributed in the water mist separator 12 in an array manner, the separation strips 14 are of a multi-layer structure, the separation strips 14 are distributed in the water mist separator 12 in an array manner, so that the overall dust removal efficiency of the device can be improved through the separation strips 14, air-cluster mixed water passes through the separation strips 14 to separate water vapor from water, solids and water are blocked below the separation strips 14, and then water drops formed through condensation are dripped into the water collecting tank 9 to be stored, so that the utilization efficiency of water resources in the device is improved.

Example 6: the embodiment is based on the previous embodiment, and is different from the previous embodiment in that the embodiment provides a top dust removing structure of a self-excited dust removing device with flow monitoring, and in particular.

The dust collection strips 19 are arranged in an array manner in the lower air duct 18, the air inlet 17 passes through the lower air duct 18 and the air outlet 22 to form a circulation structure, the driving motor 24 drives the fan blades 21 to rotate at the inner height of the device, then negative pressure is generated at the position below the fan blades 21 to continuously move upwards for providing power for the air mass, the air mass passing through the separation strip 14 is driven by the negative pressure to continue upwards, then enters the lower air duct 18 through the air inlet 17, the inside of the top dust removal box 16 is blocked into an upper part and a lower part through the central partition 20, dust collection strips 19 arranged in the lower air duct 18 of the lower part can further adsorb dust in the air mass, dust carried in the air mass passing through the air inlet 17 is less, therefore, the dust collection strips 19 in the top dust removal box 16 have longer service time, clean air flow absorbed by the dust collection strips 19 enters the upper part of the central partition 20 through a gap generated at the left side of the central partition 20, and the air outlet 22 and the air outlet 23 arranged at the right side of the top dust removal box 16 are discharged, and dust is contained in a very small amount of the discharged air at the moment, so that the dust removal effect is realized.

The length of the center partition plate 20 is smaller than the length of the top dust removing box 16, the width of the center partition plate 20 is equal to the width of the top dust removing box 16, the length of the center partition plate 20 is smaller than the top dust removing box 16, and the width of the center partition plate 20 is equal to the width of the top dust removing box 16, so that an air mass channel can be formed on the left side of the center partition plate 20, air flows can be discharged out of the device through the air outlet 22 after being adsorbed by the dust accumulating strips 19, further adsorption of air masses is achieved, and the overall dust removing efficiency of the device is improved.

Working principle: firstly, dust generated from the grinding wheel 3 moves downwards to enter the water storage tank 6 through a guide plate 7 inclined at the rear, water contained in the water storage tank 6 collides with the dust to generate water mist, part of the dust can enter the water storage tank 6 to form slurry, part of the dust can be mixed with the water mist to move continuously, the guide plate 7 is respectively fixed with the side baffle plates 8 and the water storage tank 9, meanwhile, the side baffle plates 8 and the water storage tank 9 are fixed with each other, so that the water storage tank 9 forms a sealing structure through the guide plate 7 and the side baffle plates 8 and the water storage tank 6, the water mist generated in the water storage tank 6 can only move upwards through a space in the side baffle plates 8 in the shape of a Chinese character' of a letter, then the subsequent dust removal and purification are carried out, and the water mist generated in the water storage tank 9 can be prevented from directly entering the water storage tank 9 due to the fact that the water in the water storage tank 9 is mixed to form slurry, the water in the water storage tank 9 enters the water storage tank 6 through a flow guide pipe 10 to circulate, the water mist is prevented from blocking 10 when the water mist enters the water storage tank 6 through the water storage tank 10 to be circulated, and the water mist is discharged into the water mist separator 12 along with the higher side baffle plates 8 to move upwards through the side baffle plates 8 to the water guide pipe 12, and the water mist is separated from the water mist is discharged into the water separator through the water separator 12, and the water mist is completely separated;

Then, the air-mass mixed water passes through the inside of the separation strip 14, water vapor is separated from the water-mass mixed water by the blocking of the separation strip 14, solids and water are blocked below the separation strip 14, water drops formed by condensation are dripped into the inside of the water collecting tank 9 for storage, the utilization efficiency of water resources in the device is improved, water in the water mist separated by the water mist separator 12 can be collected along with the dripping inner wall of the side slope, the collected water returns to the inside of the water storage tank 6 through the guide pipe 10 for recycling, the water consumption in the device can be reduced, the water resources are recycled, meanwhile, the pressure sensor 11 is arranged in the water collecting tank 9 and can detect the weight of the water, then the water quantity in the water collecting tank 9 and the pressure sensor 11 is calculated through the obtained weight data in the control center 25 by connecting the pipeline 27, the water quantity in the water collecting tank 9 and the pressure sensor 11 is confirmed, the water quantity in the water collecting tank 9 is displayed by the control center 25, the time in the work is saved by artificially watching the water quantity in the water tank device, the pressure sensor 11 is connected with the control center 25 through the connecting pipeline 27, the reliability of the pressure sensor 11 and the control center 25 is improved, the reliability of the control center is also improved, and the reliability of the dust collection device is improved, and the dust collection efficiency is convenient, and the dust collection device is safe, and the dust collection device is convenient to control and safe, and the safety is safe and safe;

The driving motor 24 drives the fan blades 21 to rotate at the inner height of the device, then negative pressure is generated at the position below the fan blades 21, power is supplied to the upward movement of the air clusters continuously, the air clusters passing through the separation strips 14 are driven by the negative pressure to continue upward, then enter the lower air flue 18 through the air inlets 17, the inside of the top dust removal box 16 is blocked into an upper part and a lower part through the central partition plate 20, meanwhile, the length of the central partition plate 20 is smaller than that of the top dust removal box 16, the width of the central partition plate 20 is equal to that of the top dust removal box 16, an air cluster channel is formed at the left side of the central partition plate 20, air flows are adsorbed only through the dust collection strips 19 and then are exhausted out of the device through the air outlet 22, further adsorption of the air clusters is achieved, the dust collection efficiency of the whole device is improved, the dust collection strips 19 arranged in the lower air flue 18 in an array can be further adsorbed, and the dust carried in the air clusters passing through the air inlets 17 is less, so that the dust collection strips 19 inside the top dust removal box 16 have longer service time, clean air flows after the dust collection strips 19 are adsorbed through the central partition plate 20, the left side of the dust collection strips are adsorbed through the central partition plate 20, the left side and the air outlet air channels are exhausted through the air outlet 22 at the right side of the top air channels and the air outlet is arranged at the air outlet 22.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art of archaizing building construction, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides a take self-excitation formula dust collector of flow monitoring, includes shell body (1), its characterized in that: the flow monitoring calculation mode is the product of the cross section area of water flowing out and the width of water; catch basin (6) are installed to the bottom of shell body (1), catch basin (9) are installed to the top of catch basin (6), honeycomb duct (10) are installed at the rear of catch basin (9), circulate each other between catch basin (9), honeycomb duct (10) and catch basin (6), control center (25) are installed to the place ahead mid-mounting of shell body (1), pressure sensor (11) are installed to the inner wall of catch basin (9), connecting tube (27) are installed in the rear connection of pressure sensor (11), pressure sensor (11) are through connecting tube (27) and control center (25) interconnect.

2. The self-excited dust collector with flow monitoring of claim 1, wherein: the utility model is characterized in that a mounting bracket (2) is arranged below the middle part of the outer shell (1), grinding wheels (3) are arranged on the left side and the right side of the lower part of the outer shell (1), an ash blocking table (4) is arranged below the grinding wheels (3), an ash blocking wheel (5) with the coincident circle centers is arranged above the grinding wheels (3), a guide plate (7) is fixedly arranged at the rear part of the ash blocking wheel (5), side baffles (8) are fixedly arranged on the left side and the right side of the guide plate (7), the side baffles (8) are in a shape of a Chinese character ' of a ' E ', a water mist separator (12) is arranged above the water collecting tank (9), side sliding strips (13) are arranged on the left side and the right side of the water mist separator (12), the inside array of water smoke separator (12) installs parting bead (14), spout (15) have been seted up to the inner wall of shell body (1) and the position that sideslip strip (13) correspond, dismouting baffle (26) are installed in the right side of shell body (1) and the position that water smoke separator (12) corresponds, top dust removal case (16) are installed to the top of water smoke separator (12), air intake (17) have been seted up in the lower right side of top dust removal case (16), the internally mounted of top dust removal case (16) has central baffle (20), lower wind channel (18) have been seted up to the bottom of central baffle (20), the inside array of lower wind channel (18) is installed and is deposited dust strip (19), flabellum (21) are installed to the top of center baffle (20), air outlet (22) have been seted up in the upper right side of top dust removal case (16), air outlet pipe (23) are installed at the top of air outlet (22), driving motor (24) are installed in the upper left side of top dust removal case (16).

3. The self-excited dust collector with flow monitoring of claim 1, wherein: the guide plate (7) and the side baffle plate (8) are mutually fixed, the side baffle plate (8) and the water collecting tank (9) are mutually fixed, and the guide plate (7) and the water collecting tank (9) are mutually fixed.

4. The self-excited dust collector with flow monitoring of claim 1, wherein: the water storage tank (6) forms a circulation structure between the side baffle (8) and the water mist separator (12), and the height of the side baffle (8) is larger than that of the water collection tank (9).

5. The self-excited dust collector with flow monitoring of claim 1, wherein: the water collecting tank (9) and the water storage tank (6) form a circulation structure through the guide pipe (10), and the pressure sensor (11) and the control center (25) are connected with each other through a connecting pipeline (27).

6. The self-excited dust collector with flow monitoring of claim 2, wherein: the water mist separator (12) and the outer shell (1) form a detachable structure through the cooperation between the side sliding strips (13) and the sliding grooves (15), and the water mist separator (12) forms a sliding structure through the side sliding strips (13) and the sliding grooves (15).

7. The self-excited dust collector with flow monitoring of claim 2, wherein: the separation strips (14) are distributed in an array in the water mist separator (12), and the separation strips (14) are of a multi-layer structure.

8. The self-excited dust collector with flow monitoring of claim 2, wherein: the dust accumulation strips (19) are arranged in an array in the lower air duct (18), and the air inlet (17) forms a circulation structure through the lower air duct (18) and the air outlet (22).

9. The self-excited dust collector with flow monitoring of claim 2, wherein: the length of the center partition plate (20) is smaller than that of the top dust removing box (16), and the width of the center partition plate (20) is equal to that of the top dust removing box (16).