CN215002103U - Self-cleaning air purification equipment - Google Patents

Abstract

The utility model discloses a self-cleaning air purification equipment, it includes wind channel and dust arrester, the dust arrester is located in the wind channel, self-cleaning air purification equipment still includes ultrasonic cleaning mechanism and moving mechanism, ultrasonic cleaning mechanism locates in the wind channel, moving mechanism with the dust arrester is connected, moving mechanism is used for the drive the dust arrester removes, so that the dust arrester is located collect dirt in the wind channel or be located wash in the ultrasonic cleaning mechanism. The utility model discloses a self-cleaning air purification equipment, ultrasonic cleaning mechanism set up in the wind channel, and it washs in to ultrasonic cleaning mechanism to remove through moving mechanism drive dust arrester, and after the washing, moving mechanism drive dust arrester removes to the wind channel in collect dirt. Therefore, the whole height of the self-cleaning air purification equipment is greatly reduced, the self-cleaning air purification equipment is easy to install and use, and the maintenance cost is reduced.

Description

Self-cleaning air purification equipment

Technical Field

The utility model relates to an industrial equipment technical field, in particular to self-cleaning air purification equipment.

Background

The electrostatic dust removal technology is one of the common modes of self-cleaning air purification equipment, and the electrostatic dust removal has the advantages of no material consumption, small wind resistance, no requirement on the size of suspended particles and the like. However, electrostatic precipitation also has significant disadvantages: the requirement on the structure of the air duct is high, the air duct is sensitive to the wind speed, in order to reduce the wind speed, the air duct becomes very large, and the electrostatic dust collector also becomes large and heavy. The electrostatic dust collector has a certain dust holding capacity, and needs to be cleaned after the dust holding capacity reaches saturation, so that the dust holding capacity is recovered. Because the dust collector is bulky, heavy and complex in structure, cleaning the dust collector is a time-consuming and labor-consuming process.

At present, the technology for automatically cleaning the dust collector is available, some of the technologies use a high-pressure water gun for washing, some of the technologies use a knocking method for shaking to remove accumulated dust, and some of the technologies immerse the dust collector into water and use ultrasonic cleaning. The ultrasonic cleaning design adopts the U-shaped air channel, and has the advantages of omitting mechanism parts and reducing the chance of water leakage. However, the U-shaped duct has a disadvantage in that the unevenness of the wind speed is increased, which reduces the dust collecting efficiency.

The existing design also has a sinking design, an opening is arranged below the air duct and a cleaning tank is installed, the dust collector is suspended in the air duct during working, and sinks into the cleaning tank through the opening when cleaning is needed. The sinking type has the disadvantages that the height of the equipment is at least more than twice of the height of the dust collector, and the occupied space is very large; especially in the scene of large air volume requirement, too large equipment height often restricts the installation and use of equipment.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is that too high in order to overcome self-cleaning air purification equipment among the prior art, be difficult for installing and using, defects such as extravagant manpower and material resources cost provide a self-cleaning air purification equipment.

The utility model discloses an above-mentioned technical problem is solved through following technical scheme:

the self-cleaning air purification equipment is characterized by further comprising an ultrasonic cleaning mechanism and a moving mechanism, wherein the ultrasonic cleaning mechanism is arranged in the air channel, the moving mechanism is connected with the dust collector, and the moving mechanism is used for driving the dust collector to move so that the dust collector is located in the air channel for collecting dust or located in the ultrasonic cleaning mechanism for cleaning.

Preferably, the ultrasonic cleaning mechanism is arranged at the bottom in the air duct, and the moving mechanism is used for driving the dust collector to move obliquely upwards so as to enable the dust collector to be positioned in the air duct for collecting dust; or the moving mechanism is used for driving the dust collector to move obliquely downwards so that the dust collector is positioned in the ultrasonic cleaning mechanism for cleaning.

In this scheme, adopt above-mentioned structural style, wash in moving mechanism drive dust arrester removal to ultrasonic cleaning mechanism through, after wasing, moving mechanism drive dust arrester removal is to the wind channel in collect dirt. Therefore, the whole height of the self-cleaning air purification equipment is greatly reduced, the self-cleaning air purification equipment is easy to install and use, and the maintenance cost is reduced.

Preferably, the moving mechanism comprises a driving part and a transmission part, the driving part is connected with the transmission part, the dust collector is connected to the transmission part, and the driving part drives the dust collector to obliquely move up and down through the transmission part.

In this scheme, adopt above-mentioned structural style, through the removal of transmission part control dust arrester, realize wasing simple structure, easily operation under the condition that need not artifical the dismantlement. Meanwhile, no additional space is needed in the moving process.

Preferably, the moving mechanism includes a rotating shaft, and an end of the dust collector is connected to the ultrasonic cleaning mechanism through the rotating shaft.

In this scheme, adopt above-mentioned structural style, make the dust arrester at the in-process stability of removal higher, effectively avoided the dust arrester to produce the skew dislocation phenomenon at the in-process that removes, improved self-cleaning air purification equipment's reliable and stable greatly.

Preferably, the transmission member is a screw, a rack, a chain, a belt, a wire, a rope, a hydraulic rod or a pneumatic rod.

Preferably, the self-cleaning air purification equipment comprises an ionization module, wherein the ionization module is arranged in the air duct and is positioned between the air inlet of the air duct and the dust collector, and the ionization module and the dust collector are arranged at intervals; alternatively, the ionization module is connected to the dust collector.

In this scheme, adopt above-mentioned structural style, ionization module and dust arrester interval set up, and ionization module and dust arrester separately work, and the ionization module need not to wash when the dust arrester purifies, and the operation of being convenient for reduces the maintenance cost, and improves collection dust efficiency greatly. The ionization module is connected with the dust collector, so that the structure compactness of the self-cleaning air purification equipment is improved, and the equipment space is saved.

Preferably, the self-cleaning air purification apparatus includes a controller electrically connected to the moving mechanism and the ultrasonic cleaning mechanism.

In this scheme, adopt above-mentioned structural style, through the switch of controller control moving mechanism and ultrasonic cleaning mechanism respectively, improve self-cleaning efficiency greatly, easily management.

Preferably, the ultrasonic cleaning mechanism comprises a cleaning tank and an ultrasonic generator, the ultrasonic generator is connected to the cleaning tank, and the controller is electrically connected with the ultrasonic generator.

In this scheme, adopt above-mentioned structural style, the dust arrester washs under ultrasonic cleaner constructs the effect of ultrasonic generator, guarantees the cleaning rate.

Preferably, the cleaning pool is provided with a water inlet valve and a water discharge valve, the controller is electrically connected with the water inlet valve, and the controller is electrically connected with the water discharge valve.

In this scheme, adopt above-mentioned structural style, the liquid height is convenient for automated control, easy management under the effect of water intaking valve and drain valve in the cleaning bath.

Preferably, the ultrasonic cleaning mechanism comprises a liquid level sensor, the liquid level sensor is arranged in the cleaning pool, the liquid level sensor is electrically connected with the controller, and the controller is used for receiving signals sent by the liquid level sensor and controlling the water inlet valve and the ultrasonic generator to be switched on and off.

In this scheme, adopt above-mentioned structural style, detect the height of liquid in the cleaning pool through level sensor, improve automatic efficiency, improve ultrasonic cleaning mechanism's stability greatly.

Preferably, the self-cleaning air purification device comprises a travel switch which is electrically connected with the controller, and the controller is used for receiving signals sent by the travel switch and controlling the moving mechanism and the opening and closing of the water inlet valve.

In the scheme, the automatic control is realized through the travel switch by adopting the structural form, and the operation and the management are convenient.

Preferably, the self-cleaning air purification device includes an air inlet air quality detection sensor and an air outlet air quality detection sensor, the air inlet air quality detection sensor and the air outlet air quality detection sensor are located in the air duct, the air inlet air quality detection sensor and the air outlet air quality detection sensor are respectively located at two sides of the dust collector, and the controller is electrically connected to the air inlet air quality detection sensor and the air outlet air quality detection sensor and used for controlling the opening and closing of the moving mechanism.

In this scheme, adopt above-mentioned structural style, exit air quality detection sensor detects the air of business turn over mouth department to the circulation of automatic control business turn over wind mouthful department air and moving mechanism's switch improve the automation, the management and the operation of being convenient for.

Preferably, the self-cleaning air purification equipment comprises an electric heating device, and the electric heating device is arranged at the edge of the dust collector.

In this scheme, adopt above-mentioned structural style, accelerate the dust arrester after the stoving purification through electric heater unit to make the dust arrester get into operating condition rapidly, improve work efficiency.

Preferably, the self-cleaning air purifying device comprises an air pipe and an air pump, wherein the air pump is connected to one end of the air pipe, and the other end of the air pipe faces the dust collector.

Preferably, the self-cleaning air purification device further comprises a plurality of gas nozzles, and the plurality of gas nozzles are connected with the gas pipe and face the dust collector.

In this scheme, adopt above-mentioned structural style, realize accelerating the dust arrester after the blowing dry purification to make the dust arrester get into operating condition rapidly, improve work efficiency.

Preferably, the number of the dust collectors is at least two.

In this scheme, adopt above-mentioned structural style, with two at least dust collectors allies oneself with and locate self-cleaning air purification equipment's front and back both ends respectively, an ultrasonic cleaning mechanism of sharing realizes incessant air cleaning work, under the condition of not too much increase self-cleaning air purification equipment volume, makes the air handling capacity increase by a wide margin.

On the basis of the common knowledge in the field, the above preferred conditions can be combined at will to obtain the preferred embodiments of the present invention.

The utility model discloses an actively advance the effect and lie in:

the utility model discloses a self-cleaning air purification equipment, ultrasonic cleaning mechanism set up in the wind channel, and it washs in to ultrasonic cleaning mechanism to remove through moving mechanism drive dust arrester, and after the washing, moving mechanism drive dust arrester removes to the wind channel in collect dirt. Therefore, the whole height of the self-cleaning air purification equipment is greatly reduced, the self-cleaning air purification equipment is easy to install and use, and the maintenance cost is reduced.

Drawings

Fig. 1 is an internal structural schematic diagram of a self-cleaning air purification apparatus according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a self-cleaning air purification apparatus according to an embodiment of the present invention during cleaning.

Fig. 3 is another schematic structural diagram of the self-cleaning air purification apparatus according to the embodiment of the present invention during cleaning.

Description of reference numerals:

air duct 1

Dust collector 2

Moving mechanism 3

Drive member 31

Transmission member 32

Rotating shaft 33

Ultrasonic cleaning mechanism 4

Cleaning tank 41

Ultrasonic generator 42

Ionization module 5

Controller 6

Detailed Description

The present invention will be more clearly and completely described below by way of examples and with reference to the accompanying drawings, but the present invention is not limited thereto.

As shown in fig. 1, fig. 2 and fig. 3, the embodiment of the present invention provides a self-cleaning air purification apparatus, which includes an air duct 1, a dust collector 2, a moving mechanism 3 and an ultrasonic cleaning mechanism 4, wherein the dust collector 2 is disposed in the air duct 1, the ultrasonic cleaning mechanism 4 is disposed in the air duct 1, the moving mechanism 3 is connected to the dust collector 2, and the moving mechanism 3 is used for driving the dust collector 2 to move, so that the dust collector 2 is disposed in the air duct 1 for collecting dust or disposed in the ultrasonic cleaning mechanism 4 for cleaning.

In this embodiment, the air duct 1 is a straight air duct, and the left side of the air duct 1 is an air inlet and the right side is an air outlet. Of course, the specific shape of the air duct 1 may not be limited. When the self-cleaning air purification equipment is used for collecting dust, the moving mechanism 3 is used for driving the dust collector 2 to be positioned in the air duct 1, and air passes through the dust collector 2 through the air inlet to realize dust collection operation and then is discharged through the air outlet. After the dust collection operation is completed and cleaning is needed, the moving mechanism 3 drives the dust collector 2 to move into the ultrasonic cleaning mechanism 4 for cleaning, and the ultrasonic cleaning mechanism 4 is used for cleaning the dust collector 2. After the cleaning is finished, the moving mechanism 3 drives the dust collector 2 to move into the air duct 1 to continuously collect dust, so that the circulating work is facilitated.

The ultrasonic cleaning mechanism 4 is disposed in the air duct 1, the moving mechanism 3 drives the dust collector 2 to move into the ultrasonic cleaning mechanism 4 for cleaning, and after cleaning is finished, the moving mechanism 3 drives the dust collector 2 to move into the air duct 1 for collecting dust. The ultrasonic cleaning mechanism 4 is not required to be arranged outside the air duct 1 for cleaning operation, so that the maintenance cost is reduced.

As a preferred embodiment, the ultrasonic cleaning mechanism 4 is arranged at the bottom in the air duct 1, and the moving mechanism 3 is used for driving the dust collector 2 to move obliquely upwards so as to enable the dust collector 2 to be positioned in the air duct 1 for collecting dust; alternatively, the moving mechanism 3 is used to drive the dust container 2 to move obliquely downward so that the dust container 2 is located in the ultrasonic cleaning mechanism 4 for cleaning. No matter how high the dust collector 2 stands, the whole height of the self-cleaning air purification equipment is not two times higher than that of the dust collector 2, and the larger the dust collector 2 is, the smaller the whole height increase proportion is, so that the whole height of the self-cleaning air purification equipment is greatly reduced. In the scene of the requirement of large air volume, the installation and the use of equipment are often limited by the overlarge equipment height, and the self-cleaning air purification equipment is easy to install and use in the structural form, so that the maintenance cost is reduced.

As a preferred embodiment, the moving mechanism 3 comprises a driving part 31 and a transmission part 32, the driving part 31 is connected with the transmission part 32, the dust collector 2 is connected with the transmission part 32, and the driving part 31 drives the dust collector 2 to move obliquely up and down through the transmission part 32. The ultrasonic cleaning mechanism 4 is arranged at the bottom in the air duct 1, and the driving part 31 controls the movement of the dust collector 2 through the transmission part 32, so that the dust collector 2 moves obliquely upwards and stands in the air duct 1 or moves obliquely downwards and is horizontally placed in the ultrasonic cleaning mechanism 4. The dust collector 2 can be cleaned without manual disassembly, and has simple structure and easy operation. Meanwhile, no additional space is needed in the moving process.

In a preferred embodiment, the moving mechanism 3 further comprises a rotating shaft 33, the driving member 31 is connected to the transmission member 32, the dust container 2 is connected to the transmission member 32, the driving member 31 drives the dust container 2 to move up and down obliquely through the transmission member 32, and the end of the dust container 2 is connected to the ultrasonic cleaning mechanism 4 through the rotating shaft 33. The dust collector 2 is controlled to move through the transmission part 32, and the rotation of the dust collector 2 on the ultrasonic cleaning mechanism 4 is realized through the rotating shaft 33, so that the stability of the dust collector 2 in the moving process is higher, the phenomenon of offset and dislocation of the dust collector 2 in the moving process is effectively avoided, and the stability and reliability of the self-cleaning air purification equipment are greatly improved.

In one embodiment, the transmission member 32 is a screw, and the transmission member 32 may alternatively be a rack, a chain, a belt, a wire, a rope, a hydraulic or pneumatic rod, etc.

In a preferred embodiment, the self-cleaning air purification apparatus comprises an ionization module 5, the ionization module 5 is disposed in the air duct 1 and located between the air inlet of the air duct 1 and the dust collector 2, and the ionization module 5 is spaced apart from the dust collector 2. The ionization module 5 is placed upstream of the dust collector 2, the ionization module 5 operating separately from the dust collector 2. Particles in the air enter the ionization module 5 from the air inlet, are deflected by an electric field and are captured when passing through the dust collector 2 after being charged, and the ionization module 5 does not need to be cleaned when the dust collector 2 is cleaned, so that the operation is convenient, and the maintenance cost is reduced. And when the dust collector 2 is cleaned in the ultrasonic cleaning mechanism 4, the ionization module 5 can work uninterruptedly, thereby greatly improving the dust collecting efficiency. Or the ionization module 5 is connected with the dust collector 2. The compactness of the self-cleaning air purification equipment structure is improved, and the equipment space is saved.

In a preferred embodiment, the self-cleaning air purification apparatus includes a controller 6, and the controller 6 is electrically connected to the moving mechanism 3 and the ultrasonic cleaning mechanism 4. The controller 6 respectively controls the switch of the moving mechanism 3 and the switch of the ultrasonic cleaning mechanism 4, thereby greatly improving the self-cleaning efficiency and being easy to manage.

In a preferred embodiment, the ultrasonic cleaning mechanism 4 comprises a cleaning tank 41 and an ultrasonic generator 42, and the ultrasonic generator 42 is connected to the cleaning tank 41, for example, at the bottom or the side of the cleaning tank 41. The controller 6 is electrically connected to the ultrasonic generator 42. The dust collector 2 is cleaned under the action of the ultrasonic generator 42 in the ultrasonic cleaning mechanism 4, so that the cleaning rate is ensured.

In addition, the ultrasonic generator 42 may be an ultrasonic vibrator or an ultrasonic vibrating plate, or the like.

In a preferred embodiment, the cleaning tank 41 is provided with a water inlet valve and a water discharge valve, and the controller 6 is electrically connected to the water inlet valve and the water discharge valve. The position of the water inlet valve of the cleaning tank 41 is not particularly limited, and the water can flow into the cleaning tank 41 smoothly, and the drain valve is disposed at the downstream position of the cleaning tank 41. The liquid level in the cleaning tank 41 is convenient for automatic control and easy to manage under the action of the water inlet valve and the water discharge valve.

In a preferred embodiment, the ultrasonic cleaning mechanism 4 comprises a liquid level sensor disposed in the cleaning tank 41, the liquid level sensor is electrically connected to the controller 6, and the controller 6 is configured to receive a signal from the liquid level sensor and control the opening and closing of the water inlet valve and the ultrasonic generator 42. When the liquid level sensor detects that the liquid in the cleaning pool 41 reaches the set height, the water inlet valve is closed, the ultrasonic cleaning mechanism 4 is started, and the cleaning operation is completed according to the cleaning time set in the controller 6. The liquid level sensor is used for detecting the height of liquid in the cleaning pool 41 and controlling the water inlet valve and the ultrasonic generator 42 to be switched on and off, so that the automation efficiency is improved, and the stability of the ultrasonic cleaning mechanism 4 is greatly improved.

In a preferred embodiment, the self-cleaning air purification apparatus further comprises a travel switch electrically connected to the controller 6, the travel switch is disposed in the ultrasonic cleaning mechanism 4 and upstream of the air duct 1, and the specific positions of the travel switch in the ultrasonic cleaning mechanism 4 and the air duct 1 are not particularly limited. The controller 6 receives signals sent by the travel switch and is used for controlling the moving mechanism 3 and the ultrasonic cleaning mechanism 4 to be switched. The driving part 31 drives the transmission part 32 to make the dust collector 2 move down obliquely and lie down in the cleaning pool 41, and after moving to a designated position, the travel switch is triggered, the driving part 31 is closed, the water inlet valve is opened, and at the moment, the water discharge valve is in a closed state. The ultrasonic cleaning mechanism 4 cleans the dust collector 2, after cleaning is finished, the driving part 31 is supplied with power by opposite voltage, the driving part 31 drives the transmission part 32 to rotate, so that the dust collector 2 moves obliquely upwards, when the dust collector 2 is lifted to a designated position in the air channel 1, the travel switch is triggered, and the driving part 31 is closed. Automatic control is realized through the cooperation of the travel switch and the controller 6, and operation and management are facilitated.

As a preferred embodiment, the self-cleaning air purification apparatus includes an air inlet air quality detection sensor and an air outlet air quality detection sensor, the air inlet air quality detection sensor and the air outlet air quality detection sensor are located in the air duct 1, and are respectively located at two sides of the dust collector 2, at the air inlet and at the air outlet, and the controller 6 is electrically connected to the air inlet air quality detection sensor and the air outlet air quality detection sensor. Air flows in from an air inlet on the left side of the air channel 1 and flows out from an air outlet on the right side of the air channel 1, an air inlet air quality detection sensor and an air outlet air quality detection sensor respectively detect the air quality values at the air inlet and the air outlet and send corresponding signals, the controller 6 receives the corresponding signals of the detected air quality values, and the detected air quality values are compared with preset values of the controller 6, so that the air circulation of the inlet and the outlet and the opening and closing of the moving mechanism 3 are controlled. Wherein, air intake air quality detection sensor and air outlet air quality detection sensor can be PM2.5 sensor.

When the air quality measured at the outlet is low and the air quality value is larger than the set value, the controller 6 controls the fan to be closed, the dust collector 2 stops working, and the controller 6 controls the moving mechanism 3 to be opened, so that the dust collector 2 in the air channel 1 enters the ultrasonic cleaning mechanism 4 for cleaning. The cooperation of the controller 6 and the air quality detection sensor improves automation, and is convenient to manage and operate.

In the present embodiment, the cleaning of the dust collector 2 can be controlled by detecting the air quality value by the air quality detection sensor. Of course, in other embodiments, the cleaning time may be preset to control. When the preset cleaning time in the controller 6 is reached, the fan works at half power, the dust collector 2 stops working, and the controller 6 controls the moving mechanism 3 to be opened, so that the dust collector 2 in the air duct 1 enters the ultrasonic cleaning mechanism 4 for cleaning.

As a preferred embodiment, the self-cleaning air cleaning apparatus comprises an electric heating device, which is arranged at the edge of the dust container 2. The local temperature of the edge of the dust collector 2 which completes the cleaning operation is raised by the electric heating device to evaporate the moisture of the dust collector more quickly, and the dust collector 2 is electrified after a set time. And if the dust collector 2 is electrified within 10 seconds continuously without ignition, the dust collector 2 is judged to be dried, the fan is started, the power of the fan is adjusted to be in full-load operation, the full-working state is entered, and the dust collector 2 continues to realize dust collection operation. Accelerate the dust arrester 2 after the stoving purification through electric heater unit to make dust arrester 2 get into operating condition fast, improve work efficiency.

In addition, the dust collector 2 can be quickly put into operation by the embodiment of blow drying. The self-cleaning air purifying device comprises an air pipe and an air pump, wherein the air pump is connected to one end of the air pipe, and the other end of the air pipe faces the dust collector 2. After the dust collector 2 is cleaned, the moving mechanism 3 moves the dust collector 2 to leave the cleaning pool 41, the air pump is started, high-pressure air is pushed into the air pipe, and water drops on the edge of the dust collector 2 are blown away from the dust collector 2, so that the water evaporation is accelerated.

In a preferred embodiment, the self-cleaning air cleaning apparatus further comprises a plurality of gas nozzles, each of which is connected to the gas pipe and faces the dust container 2. After the dust collector 2 is cleaned, the moving mechanism 3 moves the dust collector 2 to leave the cleaning pool 41, the air pump is started, high-pressure air is pushed into the air pipe, the air is sprayed out from the plurality of air nozzles at a high speed, and water drops on the edge of the dust collector 2 are blown away from the dust collector 2. After a period of set time, the dust collector 2 is electrified within 10 continuous seconds without ignition, the dust collector 2 is judged to be blow-dried, the fan is turned on, the power of the fan is adjusted to be in full-load work, the full-working state is achieved, and the dust collector 2 continues to achieve dust collection operation. Through the structural form, the dust collector 2 is accelerated to blow dry and rapidly enters a working state, so that the working efficiency is improved.

Alternatively, the cleaned dust collector 2 may be dried by flowing air, and the dust collector 2 may be turned on after a predetermined time has elapsed.

As a preferred embodiment, the number of dust collectors 2 is at least two. At least two dust collectors 2 are connected and respectively arranged at the front end and the rear end of the self-cleaning air purification equipment, and share one ultrasonic cleaning mechanism 4. After the cleaning operation of the partial dust collectors 2 is performed, once the continuous operation is performed, the ignition phenomenon is not generated, and the cleaning of the rest dust collectors 2 is started. Under the mode of multiple dust collectors, the dust collecting efficiency is greatly improved, the dust removing and purifying efficiency is improved, and uninterrupted air purification work is realized.

When the specific implementation is carried out, the air outlet air quality detection sensor detects that the dust collector 2 needs to be cleaned, or the time reaches the preset cleaning time, the fan works at half power, and the dust collector 2 stops working. The driving part 31 drives the transmission part 32 to make the dust collector 2 move down obliquely and lie down in the cleaning pool 41, and after moving to a designated position, the travel switch is triggered, the driving part 31 is closed, the water inlet valve is opened, and at the moment, the water discharge valve is in a closed state. When the liquid level sensor detects that the liquid in the cleaning tank 41 reaches the set height, the water inlet valve is closed, the ultrasonic cleaning mechanism 4 is opened, the cleaning operation is completed according to the cleaning time set in the controller 6, and the ultrasonic cleaning mechanism 4 is closed. The drain valve is opened and closed according to the set time preset by the controller 6. The driving part 31 is powered by opposite voltage, the driving part 31 drives the transmission part 32 to rotate, the dust collector 2 moves upwards in an inclined way, and when the dust collector 2 is lifted to a designated position in the air duct 1, the travel switch is triggered, and the driving part 31 is closed. The dust collector 2 is dried by flowing air or an air pipe or the dust collector 2 is dried by an electric heating device, the dust collector 2 is electrified within 10 continuous seconds without ignition, a fan is turned on, and the dust collector 2 continues to realize dust collection operation. In the multi-collector mode, there is no sparking, and the cleaning of the remaining dust collectors 2 can be started.

Although specific embodiments of the present invention have been described above, it will be understood by those skilled in the art that this is by way of example only and that the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and the principles of the present invention, and these changes and modifications are all within the scope of the present invention.

Claims (15)

1. A self-cleaning air purification device comprises an air duct and a dust collector, wherein the dust collector is arranged in the air duct, and the self-cleaning air purification device is characterized by further comprising an ultrasonic cleaning mechanism and a moving mechanism, wherein the ultrasonic cleaning mechanism is arranged in the air duct, the moving mechanism is connected with the dust collector, and the moving mechanism is used for driving the dust collector to move so that the dust collector is positioned in the air duct for collecting dust or is positioned in the ultrasonic cleaning mechanism for cleaning;

the ultrasonic cleaning mechanism is arranged at the bottom in the air duct, and the moving mechanism is used for driving the dust collector to move upwards in an inclined manner so as to enable the dust collector to be positioned in the air duct for collecting dust; or the moving mechanism is used for driving the dust collector to move obliquely downwards so that the dust collector is positioned in the ultrasonic cleaning mechanism for cleaning.

2. The self-cleaning air purification apparatus of claim 1, wherein the movement mechanism comprises a drive member and a transmission member, the drive member is connected to the transmission member, the dust collector is connected to the transmission member, and the drive member drives the dust collector to move up and down obliquely through the transmission member.

3. The self-cleaning air purification apparatus of claim 1, wherein the movement mechanism comprises a shaft through which an end of the dust collector is coupled to the ultrasonic cleaning mechanism.

4. The self-cleaning air purification apparatus of claim 2, wherein the transmission member is a screw, rack, chain, belt, wire, rope, hydraulic rod, or pneumatic rod.

5. The self-cleaning air purification apparatus of claim 1, comprising an ionization module disposed within the air chute between the air inlet of the air chute and the dust collector, the ionization module being spaced from the dust collector;

alternatively, the ionization module is connected to the dust collector.

6. The self-cleaning air purification apparatus of claim 1, comprising a controller electrically coupled to the movement mechanism and the ultrasonic cleaning mechanism.

7. The self-cleaning air purification apparatus of claim 6, wherein the ultrasonic cleaning mechanism comprises a cleaning tank and an ultrasonic generator, the ultrasonic generator is coupled to the cleaning tank, and the controller is electrically coupled to the ultrasonic generator.

8. The self-cleaning air purification apparatus of claim 7, wherein the cleaning basin has a water inlet valve and a water drain valve, the controller is electrically connected to the water inlet valve, and the controller is electrically connected to the water drain valve.

9. The self-cleaning air purification apparatus of claim 8, wherein the ultrasonic cleaning mechanism comprises a level sensor disposed within the cleaning tank, the level sensor being electrically connected to the controller, the controller being configured to receive signals from the level sensor and to control the opening and closing of the inlet valve and the ultrasonic generator.

10. The self-cleaning air purification apparatus of claim 8, comprising a travel switch electrically connected to the controller, the controller configured to receive a signal from the travel switch and configured to control the movement mechanism and the opening and closing of the fill valve.

11. The self-cleaning air purification apparatus of claim 6, comprising an inlet air quality detection sensor and an outlet air quality detection sensor, wherein the inlet air quality detection sensor and the outlet air quality detection sensor are located within the air duct, the inlet air quality detection sensor and the outlet air quality detection sensor are located on either side of the dust collector, respectively, and the controller is electrically connected to the inlet air quality detection sensor and the outlet air quality detection sensor and configured to control the movement mechanism to open and close.

12. The self-cleaning air purification apparatus of claim 1, comprising an electrical heating device disposed at an edge of the dust collector.

13. The self-cleaning air purification apparatus of claim 1, comprising an air tube and an air pump, the air pump connected to one end of the air tube, the other end of the air tube facing the dust collector.

14. The self-cleaning air purification apparatus of claim 13, further comprising a plurality of gas nozzles, each of the plurality of gas nozzles being connected to the gas pipe and directed toward the dust collector.

15. The self-cleaning air purification apparatus of any of claims 1-14, wherein the number of dust collectors is at least two.

Images