CN211613071U - Air inlet dust collector and have device's defeated wind equipment - Google Patents
Air inlet dust collector and have device's defeated wind equipment Download PDFInfo
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- CN211613071U CN211613071U CN201921878956.6U CN201921878956U CN211613071U CN 211613071 U CN211613071 U CN 211613071U CN 201921878956 U CN201921878956 U CN 201921878956U CN 211613071 U CN211613071 U CN 211613071U
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Abstract
An air inlet dust removal device and an air delivery device with the same are provided, wherein the air inlet dust removal device is provided with a shell, and an electrostatic dust removal mechanism, a cleaning mechanism and a dust collection box which are positioned in the shell; the electrostatic precipitation mechanism is assembled in an air inlet channel in the shell, the cleaning mechanism is assembled in the electrostatic precipitation mechanism, and the dust collection box is arranged below the electrostatic precipitation mechanism. When the air current enters into air inlet channel, the dust in the air current is adsorbed to self by the electrostatic dust removal mechanism, then the dust on the electrostatic dust removal mechanism is cleaned to the dust collection box by the cleaning mechanism, the dust collection box can be directly taken out for cleaning, and the dust can be directly sucked out from the dust collection box by the dust collector, so that the dust is prevented from being spilled in the taking-out process. This air inlet dust collector can purify the dust in the air current, has solved the trouble that traditional deashing needs the dismantlement equipment again for the deashing process is simpler.
Description
Technical Field
The utility model relates to a defeated wind equipment dust removal field especially relates to an air inlet dust collector and have device's defeated wind equipment.
Background
Electrostatic dust removal is one of the methods of gas dust removal. The dust-containing gas is electrically separated when passing through a high-voltage electrostatic field, and dust particles and negative ions are combined to be charged negatively and then tend to discharge on the surface of the anode to be deposited. A dust collecting method in which gas is ionized by an electrostatic field to thereby electrically adsorb dust particles to an electrode. In a strong electric field, air molecules are ionized into positive ions and electrons, and the electrons encounter dust particles in the process of running to the positive electrode, so that the dust particles are negatively charged and adsorbed to the positive electrode to be collected. With the progress of science and technology, electrostatic dust collection technology is widely applied to some wind transmission devices such as air conditioners, air purifiers and the like. When the electrostatic dust removal module is used to a certain degree, the electrostatic dust removal module needs to be disassembled to clean dust on the electrostatic dust removal equipment, so that the difficulty is high and the electrostatic dust removal equipment is inconvenient.
Therefore, it is necessary to provide a simple air intake and dust removal device capable of being freely taken out to overcome the defects of the prior art.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to avoid prior art's weak point and provide an air inlet dust collector, this air inlet dust collector can collect the dust in the air current, then uses cleaning module to collect the dust in the ash collecting box, and the ash collecting box can directly take out the clearance dust, need not dismantle for the deashing mode becomes simple.
The above object of the present invention is achieved by the following technical measures.
The air inlet dust removal device is provided with a shell, and an electrostatic dust removal mechanism, a cleaning mechanism and a dust collection box which are positioned in the shell; the electrostatic precipitation mechanism is assembled in an air inlet channel in the shell, the cleaning mechanism is assembled in the electrostatic precipitation mechanism, and the dust collection box is arranged below the electrostatic precipitation mechanism.
Preferably, the housing is provided with a dust collecting channel, and the upper end and the lower end of the dust collecting channel are respectively connected with the electrostatic dust removal mechanism and the dust collecting box.
Preferably, the dust collecting box is provided with a box body, a dust collector access port and an end cover; the dust collector access port is arranged on the box body, and the end cover is arranged on the dust collector access port.
Preferably, the dust collecting box is provided with a handle which is fixedly connected with the box body.
Preferably, the dust collecting case is of a uncovered rectangular parallelepiped type, a cube type or a cylinder type.
Preferably, the cleaner access port, the end cap and the handle are attached to the cartridge at a same lateral position.
Preferably, the shell is provided with a cover plate, the cover plate is detachably assembled on the shell, the cover plate is positioned on the shell part outside the access port of the dust collector, and the dust collecting box is movably assembled on the shell.
Preferably, the electrostatic dust removal mechanism is provided with a frame and a plurality of groups of grids, the plurality of groups of grids are assembled on the frame, gaps exist between two adjacent groups of grids, and air inlet surfaces are formed by the gaps between the grids.
Preferably, the multiple sets of grids are arranged at equal intervals.
Preferably, a plurality of straight air inlet surfaces are arranged in the frame.
Preferably, the edge line of the windward side of the grating is defined as an outer edge line, and the outer edge line of the grating is a plurality of straight line segments.
Preferably, a cleaning mechanism is further arranged, the cleaning mechanism is provided with a cleaning brush, and the cleaning brush is assembled in the electrostatic dust removal mechanism.
Preferably, the cleaning brush is provided with a plurality of comb teeth.
Preferably, intervals exist between adjacent comb teeth, and a plurality of comb teeth are used for being inserted into gaps of the electrostatic dust removal mechanism.
Preferably, the cleaning mechanism is further provided with handles which are fixedly connected to both ends of the cleaning brush.
Preferably, the cleaning mechanism is provided with a sliding groove and a driving assembly, the driving assembly is fixed on the cleaning brush, and the driving assembly drives the cleaning brush to move along the sliding groove.
Preferably, the driving assembly is provided with a fixing frame, a driving motor and a driving wheel; the mount is fixed in the cleaning brush, and driving motor is fixed in the mount, driving motor and action wheel fixed connection, and the action wheel assembly is in the sliding tray.
The air inlet dust removal device of the utility model is provided with a shell, and an electrostatic dust removal mechanism, a cleaning mechanism and a dust collection box which are positioned in the shell; the electrostatic precipitation mechanism is assembled in an air inlet channel in the shell, the cleaning mechanism is assembled in the electrostatic precipitation mechanism, and the dust collection box is arranged below the electrostatic precipitation mechanism. When the air current enters into air inlet channel, the dust in the air current is adsorbed to self by the electrostatic dust removal mechanism, then the dust on the electrostatic dust removal mechanism is cleaned to the dust collection box by the cleaning mechanism, the dust collection box can be directly taken out for cleaning, and the dust can be directly sucked out from the dust collection box by the dust collector, so that the dust is prevented from being spilled in the taking-out process. This air inlet dust collector can purify the dust in the air current, has solved the trouble that traditional deashing needs the dismantlement equipment again for the deashing process is simpler.
Another object of the utility model is to provide a defeated wind equipment is provided with air inlet dust collector, and this air inlet dust collector can collect the dust in the air current, then uses cleaning module to collect the dust collecting box in, and the dust collecting box can directly take out the clearance dust, need not dismantle for the deashing mode becomes simple.
The above object of the present invention is achieved by the following technical measures.
The air delivery equipment is provided with an air inlet dust removal device, wherein the air inlet dust removal device is provided with a shell, and an electrostatic dust removal mechanism, a cleaning mechanism and a dust collection box which are positioned in the shell; the electrostatic precipitation mechanism is assembled in an air inlet channel in the shell, the cleaning mechanism is assembled in the electrostatic precipitation mechanism, and the dust collection box is arranged below the electrostatic precipitation mechanism.
Preferably, the housing is provided with a dust collecting channel, and the upper end and the lower end of the dust collecting channel are respectively connected with the electrostatic dust removal mechanism and the dust collecting box.
Preferably, the dust collecting box is provided with a box body, a dust collector access port and an end cover; the dust collector access port is arranged on the box body, and the end cover is arranged on the dust collector access port.
Preferably, the dust collecting box is provided with a handle which is fixedly connected with the box body.
Preferably, the dust collecting case is of a uncovered rectangular parallelepiped type, a cube type or a cylinder type.
Preferably, the cleaner access port, the end cap and the handle are attached to the cartridge at a same lateral position.
Preferably, the shell is provided with a cover plate, the cover plate is detachably assembled on the shell, the cover plate is positioned on the shell part outside the access port of the dust collector, and the dust collecting box is movably assembled on the shell.
Preferably, the electrostatic dust removal mechanism is provided with a frame and a plurality of groups of grids, the plurality of groups of grids are assembled on the frame, gaps exist between two adjacent groups of grids, and air inlet surfaces are formed by the gaps between the grids.
Preferably, the multiple sets of grids are arranged at equal intervals.
Preferably, a plurality of straight air inlet surfaces are arranged in the frame.
Preferably, the edge line of the windward side of the grating is defined as an outer edge line, and the outer edge line of the grating is a plurality of straight line segments.
Preferably, a cleaning mechanism is further arranged, the cleaning mechanism is provided with a cleaning brush, and the cleaning brush is assembled in the electrostatic dust removal mechanism.
Preferably, the cleaning brush is provided with a plurality of comb teeth.
Preferably, intervals exist between adjacent comb teeth, and a plurality of comb teeth are used for being inserted into gaps of the electrostatic dust removal mechanism.
Preferably, the cleaning mechanism is further provided with handles which are fixedly connected to both ends of the cleaning brush.
Preferably, the cleaning mechanism is provided with a sliding groove and a driving assembly, the driving assembly is fixed on the cleaning brush, and the driving assembly drives the cleaning brush to move along the sliding groove.
Preferably, the driving assembly is provided with a fixing frame, a driving motor and a driving wheel; the mount is fixed in the cleaning brush, and driving motor is fixed in the mount, driving motor and action wheel fixed connection, and the action wheel assembly is in the sliding tray.
The utility model discloses a wind conveying device, which is provided with a wind inlet dust removal device, a shell, an electrostatic dust removal mechanism, a cleaning mechanism and a dust collection box, wherein the electrostatic dust removal mechanism, the cleaning mechanism and the dust collection box are positioned in the shell; the electrostatic precipitation mechanism is assembled in an air inlet channel in the shell, the cleaning mechanism is assembled in the electrostatic precipitation mechanism, and the dust collection box is arranged below the electrostatic precipitation mechanism. When the air current enters into air inlet channel, the dust in the air current is adsorbed to self by the electrostatic dust removal mechanism, then the dust on the electrostatic dust removal mechanism is cleaned to the dust collection box by the cleaning mechanism, the dust collection box can be directly taken out for cleaning, and the dust can be directly sucked out from the dust collection box by the dust collector, so that the dust is prevented from being spilled in the taking-out process. This air inlet dust collector can purify the dust in the air current, has solved the trouble that traditional deashing needs the dismantlement equipment again for the deashing process is simpler. The utility model discloses a defeated wind equipment has avoided the process of dismantlement and installation for equipment life extension has alleviateed user's use burden.
Drawings
The present invention will be further described with reference to the accompanying drawings, but the contents in the drawings do not constitute any limitation to the present invention.
Fig. 1 is a schematic structural view of the air intake and dust removal device of the present invention.
Fig. 2 is a schematic view of the dust collecting box of the present invention.
Fig. 3 is a schematic structural diagram of the driving assembly of the present invention.
Fig. 4 is a schematic structural view of the cleaning mechanism of the present invention.
In fig. 1 to 4, the following are included:
a box body 110, a handle 120, a dust collector access port 130, a cover body 140,
A cleaning brush 210, a handle 220, a sliding groove 230, comb teeth 240, a driving component 250, a driving motor 260, a driving wheel 270, a fixed frame 280,
A housing 310, a dust collecting passage 320, a cover plate 330,
Detailed Description
The present invention will be further illustrated with reference to the following examples.
Example 1.
An air intake and dust removal device is provided with a shell 310, an electrostatic precipitation mechanism, a cleaning mechanism and a dust collection box which are positioned in the shell 310, as shown in figure 1; the electrostatic precipitation mechanism is assembled in an air inlet channel in the shell 310, the cleaning mechanism is assembled in the electrostatic precipitation mechanism, and the dust collection box is arranged below the electrostatic precipitation mechanism. When the air current got into inlet air channel, electrostatic precipitator mechanism can adsorb the dust in the air current to self surface, then can fall down to the dust-collecting box in the middle of through the dust clearance of adsorbing on the clean mechanism with electrostatic precipitator module. The dust collecting box can be directly taken out without being disassembled, thereby eliminating the difficulty of disassembling the equipment and lightening the use burden of a user.
The housing 310 is provided with a dust collecting channel 320, and the upper end and the lower end of the dust collecting channel 320 are respectively connected with the electrostatic dust removing mechanism and the dust collecting box. The dust collecting channel 320 prevents the dust cleaned from the electrostatic dust removing mechanism from spreading to other places of the equipment, so that the dust falls down and directly enters the dust collecting box, and other parts of the equipment are protected from being damaged by the dust.
In this embodiment, the dust collecting box is provided with a box body 110, a dust collector access port 130 and an end cover 140, as shown in fig. 2; the cleaner access port 130 is disposed on the case 110, and the end cap 140 is disposed on the cleaner access port 130. The provision of the cleaner access port 130 enables a user to clean dust in the dust bin by merely inserting the cleaner conduit into the cleaner access port 130 without removing the dust bin from the housing 310. The dust collecting box does not need to be taken out, so that the problem that dust on the electrostatic dust removing mechanism falls to the shell 310 in the process of taking out the dust collecting box for cleaning is avoided, the trouble of cleaning the dust collecting box is also saved, and convenience is provided for users.
Furthermore, the dust on the electrostatic dust removal mechanism can be directly and powerfully absorbed by the dust collector without cleaning the dust on the electrostatic dust removal mechanism by using a cleaning mechanism.
In order to facilitate the removal of the dust box or better process the dust collected by the dust box, the dust box is provided with a handle 120, and the handle 120 is fixedly connected to the box body 110. The handle 120 can facilitate the dust collecting box to be taken out and put in.
In the present embodiment, the dust box is of a uncovered rectangular parallelepiped type, a cube type, or a cylinder type. The dust collecting box is designed into a cylinder shape, so that the volume of the dust collecting box can be increased, the dust collecting amount is increased, and the dust cleaning period of a user is prolonged.
To facilitate the user's manipulation of the dust box, the cleaner access port 130, the end cap 140 and the handle 120 are attached to the box body 110 at the same side position. The housing 310 is provided with a cover plate 330, the cover plate 330 is detachably assembled to the housing 310, the cover plate 330 is positioned on the housing part outside the access port 130 of the dust collector, and the dust collecting box is movably assembled to the housing 330. The cleaner access port 130, the end cap 140, and the handle 120 are disposed on the same side, and only a single cover plate 330 is provided to operate the dust bin, reducing the complexity of the appliance assembly. The cover plate 330 can be directly taken off from the housing 310 without disassembly, and then the dust box cleaning dust is taken out at the notch of the housing 310 after the cover plate 330 is taken out or the dust in the dust box is sucked out by connecting a dust collector into the dust collector access port 130, and the arrangement of the cover plate 330 makes the dust in the dust box more convenient and faster to clean.
It should be noted that the shape of the cover plate 330 is not exclusive as long as it can ensure that the dust box can be removed from the housing 310.
The air intake and dust removal device is provided with a shell 310, and an electrostatic precipitation mechanism, a cleaning mechanism and a dust collection box which are positioned in the shell 310. The electrostatic precipitation mechanism is connected with the dust collection box through a dust collection channel 320 and then installed in the shell 310, the electrostatic precipitation mechanism is assembled on an air inlet channel in the shell 310, the cleaning mechanism is assembled on the electrostatic precipitation mechanism, and the dust collection box is arranged below the electrostatic precipitation mechanism. The electrostatic dust removal module can be with from the air current of coming in the inlet air duct in impurity adsorb to individual grid 420 on, clean mechanism broach 240 brushes about inserting in the middle of the electrostatic dust removal mechanism grid 420, can be simply, effectually clear up the dust on the grid 420, then through collection dirt passageway 320, in the middle of collecting the dust box with the dust under the prerequisite of guaranteeing that the dust can not indiscriminate diffusion, avoided the influence of dust diffusion to other parts of equipment. The user can easily dispose the dust in the dust collecting box by taking out the dust collecting box for cleaning or utilizing the dust collector to be connected with the dust collector access port 130 on the dust collecting box without taking out the dust collecting box and directly sucking out the dust in the mode, thereby increasing the convenience of the user for using the equipment.
Example 2.
The utility model provides an air inlet dust collector, other characteristics are the same with embodiment 1, the difference lies in, still is provided with following technical characterstic: the electrostatic dust removing mechanism is provided with a frame 410 and a plurality of groups of grids 420, the plurality of groups of grids 420 are assembled on the frame 410, gaps exist between two adjacent groups of grids 420, and air inlet surfaces are formed by the gaps between the grids 420 and the grids 420. The frame 410 serves to connect the air inlet passages and provide a fixed position for the grills 420, and the gaps between the grills 420 ensure that the air flow at the air inlet passes through the electrostatic precipitation mechanism.
It should be noted that the number of the grills 420 is not exclusive in this embodiment, and the number of the grills 420 may be increased or decreased according to the size of the frame 410.
In this embodiment, the plurality of grids 420 are arranged at equal intervals. The multiple groups of grids 420 are arranged at equal intervals, so that the quantity of dust adsorbed on each group of grids 420 is uniform, and the cleaning mechanism is favorable for removing dust.
In order to further increase the purifying capacity of the electrostatic dust removing mechanism to the air flow, a plurality of straight air inlet surfaces are arranged in the frame 410. The edge line of the windward side of the grille 420 is defined as an outer edge line, and the outer edge line of the grille 420 is a plurality of straight line segments. The arrangement of a plurality of straight air inlet surfaces can arrange more grilles 420 in the limited frame 410, thereby increasing the air inlet area of the equipment and improving the air purifying capacity of the equipment.
The working principle of the air inlet dust removal mechanism is as follows: the air flow enters the electrostatic dust removing mechanism through the air inlet channel, dust in the air flow is adsorbed on the grids 420 through interaction between the grids 420 on the electrostatic dust removing mechanism, then the dust on the grids 420 is removed through the cleaning mechanism to enter the dust collecting channel 320 and fall into the dust collecting box, and then the dust collecting box is taken out from the cover plate 330 to be cleaned or is connected into a dust collector through the dust collector access port 130 to clean the dust in the dust collecting box, so that the effects of collecting the dust and cleaning the dust are achieved.
The air inlet dust collector of this embodiment, electrostatic precipitator mechanism is efficient, and the effect is strong. The plurality of straight air inlet surfaces simultaneously form the air inlet surface of the electrostatic precipitation mechanism, so that the air inlet area is increased, and the purification capacity of the electrostatic precipitation mechanism is improved; the cleaning mechanism is simple and convenient to operate, and the electrostatic precipitation mechanism is ensured to be repeatedly utilized; the dust collecting box can enable a user to clean collected dust without disassembling the equipment, so that convenience is provided for the user, and the service life of the equipment is prolonged.
Example 3.
The utility model provides an air inlet dust collector, other characteristics are the same with embodiment 1, the difference lies in, still has following technical characterstic: a cleaning mechanism is provided, and as shown in fig. 4, the cleaning mechanism is provided with a cleaning brush 210, and the cleaning brush 210 is assembled to the electrostatic precipitation mechanism. The cleaning brush 210 can then brush off the dust on the electrostatic precipitator mechanism grid 420.
The cleaning brush 210 of the present embodiment is provided with a plurality of comb teeth 240. It should be noted that the number of comb teeth 240 is at least one more than the number of electrostatic precipitation mechanism grids 420.
The material of the surface of the comb teeth 240 of this embodiment can be leather, fiber or animal hair, and it is ensured that the surface of the comb teeth 240 can be in full contact with the grid 420 during material selection, and the material has better wear resistance.
In order to ensure that the cleaning brush 210 can contact the place where the electrostatic precipitation mechanism grid 420 has dust, there is a space between adjacent comb teeth 240, and a plurality of comb teeth 240 are used to insert into the gap of the electrostatic precipitation mechanism grid 420. The size in grid 420 clearance is the size of broach 240, can fully contact the area that needs the clearance like this, has improved the deashing effect.
The cleaning mechanism is further provided with a handle 220 and a sliding groove 230 abutting against the handle 220, and the handle 220 is fixedly connected to both ends of the cleaning brush 210. The handle 220 is arranged, so that the cleaning brush 210 can be operated by manpower to move up and down, and the man-machine interaction is improved.
In order to automate the apparatus to a higher degree, the cleaning mechanism is provided with a sliding groove 230 and a driving assembly 250, as shown in fig. 3, the driving assembly 250 is fixed to the cleaning brush 210, and the driving assembly 250 moves the cleaning brush 210 along the sliding groove 230.
The handle 220 may or may not abut against the slide groove 230. When the handle is abutted, the abrasion of the handle is reduced; when the cleaning brush 210 is not abutted, the manual driving of the cleaning brush 210 is less in resistance to the up-and-down movement, and the operation is easier.
The driving assembly 250 of the present embodiment is provided with a fixing frame 280, a driving motor 260 and a driving wheel 270; the fixing frame 280 is fixed to the cleaning brush 210, the driving motor 260 is fixed to the fixing frame 280, the driving wheel 270 is fixedly connected to the driving motor 260, and the driving wheel 270 is assembled to the sliding groove 230. The installation of the driving component 250 can liberate manpower, provide convenience for users and avoid the damage to equipment caused by the overlarge ash removal action amplitude of the users.
The air inlet dust collector of this embodiment, drive assembly 250 and cleaning brush 210 fixed connection, handle 220 are connected in cleaning brush 210's both sides, can use the manpower to drive cleaning brush 210 work through handle 220. When the driving assembly 250 drives the cleaning brush 210 to work, the driving wheel 270 rotates on the sliding groove 230 to drive the driving assembly 250 to move up and down, the driving assembly 250 drives the cleaning brush 210 to move up and down, the dust on the electric dust removing mechanism is cleaned to the dust collecting box, and then the dust collecting box can be cleaned under the condition of not disassembling the equipment. This air inlet dust collector can effectively adsorb the dust of air intake air current kind, can artificially clear up the dust on the electrostatic precipitator mechanism, can clear up through actuating mechanism again, has richened the use variety of equipment. The dust in the dust collecting box can be processed without disassembly, thereby providing convenience for users.
It should be finally noted that the above embodiments are only intended to illustrate the technical solutions of the present invention and not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.
Claims (18)
1. The utility model provides an air inlet dust collector which characterized in that: the electrostatic dust collection device is provided with a shell, and an electrostatic dust collection mechanism, a cleaning mechanism and a dust collection box which are positioned in the shell;
the electrostatic precipitation mechanism is assembled in an air inlet channel in the shell, the cleaning mechanism is assembled in the electrostatic precipitation mechanism, and the dust collection box is arranged below the electrostatic precipitation mechanism.
2. The air intake and dust removal device of claim 1, wherein: the shell is provided with a dust collecting channel, and the upper end and the lower end of the dust collecting channel are respectively connected with an electrostatic dust removal mechanism and a dust collecting box.
3. The air intake and dust removal device of claim 1, wherein: the dust collecting box is provided with a box body, a dust collector access port and an end cover;
the dust collector access port is arranged on the box body, and the end cover is arranged on the dust collector access port.
4. An air intake and dust removal device as claimed in claim 3, wherein: the dust collecting box is provided with a handle which is fixedly connected with the box body.
5. An air intake and dust removal device as claimed in claim 3, wherein: the dust collecting box is in a uncovered cuboid shape, a square shape or a cylinder shape.
6. An air intake and dust removal device as claimed in claim 3, wherein: the dust collector access port, the end cover and the handle are connected to the same side position of the box body.
7. The air intake dust collector of claim 2, wherein: the shell is provided with a cover plate which is detachably assembled on the shell, the cover plate is positioned on the shell part outside the dust collector access port, and the dust collecting box is movably assembled on the shell.
8. An air intake and dust removal device according to any one of claims 1 to 7, wherein: the electrostatic dust removal mechanism is provided with a frame and a plurality of groups of grids, the plurality of groups of grids are assembled on the frame, gaps exist between every two adjacent groups of grids, and air inlet surfaces are formed by the grids and the gaps between the grids.
9. The air intake and dust removal device of claim 8, wherein: the multiple groups of grids are arranged at equal intervals.
10. The air intake and dust removal device of claim 8, wherein: a plurality of straight air inlet surfaces are arranged in the frame.
11. The air intake dust collector of claim 10, wherein: the edge line of the windward side of the grating is defined as an outer edge line, and the outer edge line of the grating is a plurality of straight line segments.
12. The air intake and dust removal device of claim 1, wherein: still be provided with clean mechanism, clean mechanism is provided with the cleaning brush, and the cleaning brush assembly is in electrostatic precipitator mechanism.
13. The air intake dust collector of claim 12, wherein: the cleaning brush is provided with a plurality of comb teeth.
14. The air intake dust collector of claim 13, wherein: intervals exist between adjacent comb teeth, and the plurality of comb teeth are used for inserting the grid gaps of the electrostatic dust removal mechanism.
15. The air intake dust collector of claim 12, wherein: the cleaning mechanism is also provided with handles which are fixedly connected with the two ends of the cleaning brush.
16. The air intake dust collector of claim 15, wherein: the cleaning mechanism is provided with a sliding groove and a driving assembly, the driving assembly is fixed on the cleaning brush, and the driving assembly drives the cleaning brush to move along the sliding groove.
17. The air intake dust collector of claim 16, wherein: the driving assembly is provided with a fixing frame, a driving motor and a driving wheel;
the mount is fixed in the cleaning brush, and driving motor is fixed in the mount, driving motor and action wheel fixed connection, and the action wheel assembly is in the sliding tray.
18. A wind delivery apparatus, characterized by: an air intake and dust removal device as claimed in any one of claims 1 to 17.
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CN201921878956.6U CN211613071U (en) | 2019-11-04 | 2019-11-04 | Air inlet dust collector and have device's defeated wind equipment |
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CN201921878956.6U CN211613071U (en) | 2019-11-04 | 2019-11-04 | Air inlet dust collector and have device's defeated wind equipment |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110841805A (en) * | 2019-11-04 | 2020-02-28 | 佛山市云米电器科技有限公司 | Air inlet dust collector and have device's defeated wind equipment |
CN115212659A (en) * | 2022-09-06 | 2022-10-21 | 中科纳清(江苏)科技有限公司 | Triboelectric nano-sheet filter element |
WO2023236690A1 (en) * | 2022-06-10 | 2023-12-14 | 中兴通讯股份有限公司 | Dustproof apparatus and outdoor unit |
-
2019
- 2019-11-04 CN CN201921878956.6U patent/CN211613071U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110841805A (en) * | 2019-11-04 | 2020-02-28 | 佛山市云米电器科技有限公司 | Air inlet dust collector and have device's defeated wind equipment |
WO2023236690A1 (en) * | 2022-06-10 | 2023-12-14 | 中兴通讯股份有限公司 | Dustproof apparatus and outdoor unit |
CN115212659A (en) * | 2022-09-06 | 2022-10-21 | 中科纳清(江苏)科技有限公司 | Triboelectric nano-sheet filter element |
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