CN210277070U - Dust collector and cleaning equipment - Google Patents

Abstract

The utility model discloses a dust removing device and cleaning equipment, wherein the dust removing device comprises a chassis, a sterilizing mechanism and an ash storage box; the ash storage box is provided with an inlet, and the inlet is arranged on the chassis; the ash storage box is provided with a vacuumizing mechanism, and the vacuumizing mechanism is used for sucking air with dust into the ash storage box through the inlet; the sterilization mechanism is arranged on the chassis and close to the inlet and is used for sterilizing the air with dust entering the dust storage box. The utility model arranges the sterilizing mechanism at the inlet of the ash storage box, when the vacuumizing mechanism sucks dust into the ash storage box, the dust and air are firstly sterilized by the sterilizing mechanism, thus avoiding the accumulation of bacteria in the ash storage box; when the air in the ash storage box is pumped out by the vacuumizing mechanism, bacteria can not be carried in the pumped air, the problem of accumulation of the bacteria in the interior of the existing cleaning device can be avoided, and meanwhile, the problem of indoor pollution caused by secondary discharge of the bacteria in the cleaning process is avoided.

Description

Dust collector and cleaning equipment

Technical Field

The utility model relates to a cleaning device field, in particular to dust collector and cleaning equipment.

Background

The existing dust collecting equipment, such as a dust collector, a floor sweeping robot and the like, belongs to intelligent household appliances, and can complete dust cleaning work in a room through certain artificial intelligence. General dust collecting equipment adopts brush to sweep and the vacuum mode, gets into the rubbish receiver of self with debris suction to accomplish the function of clearance, the suction in-process, evacuation equipment air cycle, the air is from the suction side to the output side.

Taking the sweeping robot as an example, in the moving process of the sweeping robot, an air flowing system in the sweeping robot is used as vacuum pumping equipment to pump air out of the storage box, so that sundries on a moving path are sucked into the storage box; because there are often a large amount of bacteria in the ground debris, after the debris that carry the bacteria is inhaled the receiver, the bacteria can follow the air flow system and get into indoor again.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a dust collector and cleaning device aims at improving the problem that the indoor secondary pollution that causes of current equipment cleaning in-process bacterium reentry.

In order to achieve the purpose, the utility model provides a dust removing device, which comprises a chassis, a sterilizing mechanism and an ash storage box;

the ash storage box is provided with an inlet, and the inlet is arranged on the chassis;

the ash storage box is provided with a vacuumizing mechanism, and the vacuumizing mechanism is used for sucking air with dust into the ash storage box through the inlet;

the sterilization mechanism is arranged on the chassis and close to the inlet and is used for sterilizing the air with dust entering the dust storage box.

Optionally, a rolling brush is arranged on the chassis;

the sterilizing mechanism is arranged on one side of the rolling brush, which is far away from the ash storage box;

the roll brush is configured to feed the dust-laden air sterilized by the sterilizing mechanism into the inlet.

Optionally, the sterilizing mechanism is arranged on one side of the rolling brush, which is far away from the ash storage box;

and after the dust is sterilized by the sterilizing mechanism, the dust is conveyed to the inlet by the rolling brush.

Optionally, the sterilization mechanism is an ultraviolet sterilization module and/or an electric heating sterilization module.

Optionally, the sterilization mechanism is detachably mounted on the chassis.

Optionally, a mounting groove is arranged on the chassis;

the sterilization mechanism is arranged in the mounting groove.

Optionally, a detachable pressing block is arranged on the chassis;

the pressing block presses the sterilization mechanism on the chassis.

On the basis of the dust removing device, the utility model discloses a cleaning device, which comprises a body and the dust removing device;

the chassis is arranged at the bottom of the body;

the ash storage box and the vacuumizing mechanism are arranged inside the body.

Optionally, the body is provided with a button for controlling the sterilization mechanism to open and close.

Optionally, the body is provided with a roller assembly capable of contracting towards the direction of the body;

the key is arranged beside the roller component;

under the walking state of the body, the roller wheel assembly approaches to the direction of the body and presses the key so as to open the sterilization mechanism;

when the body is lifted, the roller wheel assembly is far away from the key, so that the sterilization mechanism is closed.

Optionally, the roller assembly comprises a gear and a lever;

the rod piece is connected with the body;

the gear is rotationally connected to the rod piece;

under the gear walking state, the rod piece approaches to the body direction and presses the key to open the sterilization mechanism;

when the gear is lifted, the rod is far away from the key, so that the sterilization mechanism is closed.

According to the technical scheme of the utility model, the sterilization mechanism is arranged at the inlet of the ash storage box, when the vacuumizing mechanism sucks dust into the ash storage box, the dust and air are sterilized through the sterilization mechanism, so that bacteria accumulation in the ash storage box is avoided; and, when evacuation mechanism took out the air in the ash storage box, can not carry the bacterium in the air of taking out, and then can avoid the problem that the inside bacterium that current cleaning device exists is piled up, avoided clean in-process simultaneously, the bacterium is discharged indoor problem that causes secondary pollution once more.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a bottom view of a dust removing device according to an embodiment of the present invention;

FIG. 2 is a partial schematic view of a matching structure of the vacuum extractor and the ash storage box according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a cleaning device according to an embodiment of the present invention;

fig. 4 is a partial schematic view of a key and a roller assembly according to an embodiment of the present invention;

the reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				10	Body	11	Chassis
12	Mounting groove	13	Pressing block
				14	Roller assembly	15	Rod piece
16	Gear wheel	20	Sterilization mechanism
				21	Push-button	30	Ash storage box
31	Inlet port	40	Rolling brush
				50	Vacuum pumping mechanism	60	Steering wheel
70	Cleaning brush	100	Cleaning device

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1 and 2, fig. 1 is a bottom view of a dust removing device in an embodiment of the present invention, fig. 2 is a partial schematic view of a matching structure of a vacuum extractor and an ash storage box in an embodiment of the present invention, the present invention provides a dust removing device, which includes a chassis 11 (see fig. 2), a sterilizing mechanism 20 and an ash storage box 30; the ash storage box 30 is provided with an inlet 31, and the inlet 31 is arranged on the chassis 11; the ash storage box 30 is provided with a vacuumizing mechanism 50, and the vacuumizing mechanism 50 is used for sucking air with dust into the ash storage box 30 through the inlet 31; the sterilizing mechanism 20 is provided on the chassis 11 near the inlet 31 for sterilizing the dust-laden air entering the dust box 30. When the vacuum pumping mechanism 50 is operated, a local negative pressure is formed inside the ash storage box 30, air with dust at the inlet 31 of the ash storage box 30 enters the inlet 31 under the action of the vacuum pumping mechanism 50, and when the air with dust enters the inlet 31, the sterilizing mechanism 20 sterilizes the dust and the air sucked into the ash storage box 30.

When air with dust enters the dust storage box 30 through the inlet 31, the air with dust contains air and dust, bacteria in the air and the dust can be sterilized through the sterilization mechanism 20, at the moment, the air, the dust and other impurities entering the dust storage box 30 are sterilized, and when the air in the dust storage box 30 is continuously sucked through the vacuumizing mechanism 50, the air pumped out by the vacuumizing mechanism 50 is also sterilized, so that the problem that the bacteria are released into the air again after the bacteria are sucked into the dust storage box 30 by the conventional dust removing device is solved.

Because before air and dust got into ash storage box 30, disinfect through sterilization mechanism 20 in entrance 31 department, carried the bacterium in having avoided dust and the air and got into ash storage box 30, when using, only be used for storing dust and debris through disinfecting in the ash storage box 30, can not have the bacterium to pile up, avoided the problem that bacterial growing in current dust collector's ash storage box 30, help improving dust collector's health performance.

The sterilization mechanism 20 may be ultraviolet, ozone, or electric sterilization, and when installed, the shape and size of the sterilization mechanism 20 may be determined by the shape of the inlet 31. When the inlet 31 has a rectangular structure, the sterilizing mechanism 20 may have a strip-shaped structure with the same shape as the inlet 31, and the length direction of the strip-shaped structure is parallel to the length direction of the inlet 31 and is arranged beside the inlet 31, or may be arranged in the middle of the inlet 31, so that the dust and air entering the inlet 31 can be sterilized by the sterilizing mechanism 20; the sterilization mechanism 20 can be also a plurality of groups, the sterilization mechanism 20 can be arranged in parallel to the inlet 31, the sterilization mechanism 20 can also be arranged in a direction perpendicular to the inlet 31, and when the sterilization mechanism 20 is arranged, dust and air can be sterilized on the inlet 31 from multiple angles, so that the sterilization efficiency is improved.

Because dust collecting equipment often has reciprocating motion in the same direction when moving, this scheme, sterilization mechanism 20 can be set up 2 at least groups of setting in the entry 31 side, and chassis 11 is when carrying out reciprocating motion, and air and dust are from different directions entering entry 31, and sterilization mechanism 20 can be from different angles to the air and the dust that get into entry 31 disinfect.

When setting up the position of sterilization mechanism 20, can set up sterilization mechanism 20 in entry 31 one side, set up the shielding mechanism (not shown in the figure) corresponding with sterilization mechanism 20 in the opposite side of entry 31 to make sterilization mechanism 20 set up in entry 31 both sides with shielding mechanism relatively, when chassis 11 is treating the clean position and is moving, shielding mechanism shelters from the dust at entry 31, and sterilization mechanism 20 can disinfect the dust concentrating on shielding mechanism this moment, avoids appearing omitting, and the dust through disinfecting is inhaled in the entry 31 under the effect of evacuation mechanism 50.

In this embodiment, the chassis 11 may be disposed on the cleaning apparatus 100, wherein the cleaning apparatus 100 is, for example, a sweeping robot or a vacuum cleaner. Taking the sweeping robot as an example, the sweeping robot is provided with a chassis 11, a steering wheel 60 is arranged on the chassis and used for steering operation of the sweeping robot, a cleaning brush 70 is arranged on the chassis, a driving structure can be arranged inside the sweeping robot and used for driving the cleaning brush 70 to rotate, and when the driving structure of the cleaning brush 70 rotates, the driving structure drives the cleaning brush 70 to push dust to the inlet 31 of the dust storage box 30; one side of the chassis 11 facing the ground is a cleaning side, one side of the chassis 11 facing away from the ground is a mechanism side, the ash storage box 30 and the vacuumizing mechanism 50 are both arranged on the mechanism side, the inlet 31 faces the ground, the sterilizing mechanism 20 can be arranged on the cleaning side or on the edge or inside of the inlet 31, the inlet 31 can be arranged according to specific conditions, and other functional components are further arranged on the cleaning equipment 100 and are not shown one by one in the drawing.

When the sterilizing mechanism 20 is disposed on the cleaning side, the floor cleaning robot operates, the sterilizing mechanism 20 cleans the floor, and when the vacuuming mechanism 50 sucks dust on the floor into the inlet 31 together with air, the dust and the air are first sterilized by the sterilizing mechanism 20 and then enter the inlet 31. At this time, the sterilization mechanism 20 can not only clean the dust and air entering the inlet 31, but also clean the ground, thereby greatly improving the cleaning range of the dust removing device.

When the sterilizing mechanism 20 is disposed at the edge or inside of the inlet 31, dust and air are sucked into the inlet 31, and the space at the inlet 31 is relatively small, so that the sterilizing effect can be more sufficiently realized under the action of the sterilizing mechanism 20, and the problem of bacteria accumulation caused by bacteria entering the ash storage box 30 is reduced.

When the vacuum cleaner is used for a vacuum cleaner, the dust storage box 30 and the vacuumizing mechanism 50 can be connected through a pipeline, the dust storage box 30 is connected with the inlet 31 through a pipeline, the vacuum mechanism 50 is used for enabling the interior of the dust storage box 30 to be in a negative pressure state, and when air and dust enter the inlet 31, the sterilization is carried out through the sterilizing mechanism 20.

The opening and closing of the sterilization mechanism 20 can be controlled by using an existing circuit, and the vacuum pumping mechanism 50 can be integrated with the control circuit of the sterilization mechanism.

The utility model has the option that the chassis 11 is provided with a rolling brush 40; the roll brush 40 serves to send air with dust into the inlet 40. The rolling brush 40 is rotatably connected to the chassis 11, and a driving mechanism may be provided on the chassis 11 to relatively rotate the rolling brush 40.

When the chassis 11 moves on the surface of the part to be cleaned, the rolling brush 40 interacts with the surface of the part to be cleaned, so that the rolling brush 40 rotates relatively, and the rolling brush 40 pushes the dust on the surface of the part to be cleaned in the direction of the inlet 31.

Further alternatively, the sterilizing mechanism 20 is arranged on the side of the rolling brush 40 far away from the ash storage box 30; the roll brush 40 is configured to feed the dust-laden air sterilized by the sterilizing mechanism 20 to the inlet 31. When the chassis 11 moves along the surface of the part to be cleaned, the sterilization mechanism 20 firstly sterilizes the surface of the part to be cleaned, air enters the inlet 31 through the sterilization mechanism 20 and the rolling brush 40 under the action of the vacuumizing mechanism 50, and when the air and dust pass through the sterilization mechanism 20, the sterilization operation is firstly carried out, and at the moment, the dust and the air contacting the rolling brush 40 are both sterilized, so that bacteria can be prevented from being accumulated on the rolling brush 40.

The shape of the roll brush 40 may be determined according to the shape of the inlet 31, and a sterilizing mechanism 20 may also be provided between the roll brush 40 and the inlet 31 to secondarily sterilize air and dust entering the inlet 31.

Alternatively, the drum brush 40 is installed inside the inlet 40, and a driving mechanism (not shown) is provided on the drum brush 40 to drive the drum brush 40 to rotate, and the sterilized air with dust is supplied into the dust box 30 while the drum brush 40 rotates.

The utility model discloses optionally, the mechanism 20 demountable installation that disinfects is on chassis 11. The sterilization mechanism 20 can be fixed on the chassis 11 by clamping, pin joint, bolt connection and other methods. By adopting the detachable structure, the sterilization mechanism 20 can be conveniently replaced when necessary.

In order to facilitate installation of the sterilization mechanism 20, the chassis 11 of the present invention is optionally provided with an installation groove 12 (see fig. 1 and 3); the sterilizing mechanism 20 is disposed in the mounting groove 12. At this time, the sterilization mechanism 20 can be clamped in the mounting groove 12.

The copper sheet can be arranged in the mounting groove 12, so that the copper sheet is connected with the control circuit and the power supply of the sterilization mechanism 20, the contact point is arranged on the sterilization mechanism 20, and after the sterilization mechanism 20 is embedded in the mounting groove 12, the contact point and the copper sheet are mutually inserted or in contact connection, so that the sterilization mechanism 20 is connected with the control circuit and the power supply thereof. When the sterilization mechanism 20 is installed, the sterilization mechanism can be directly connected with the control circuit and the voltage by using the wires.

The utility model has the option that the chassis 11 is provided with a detachable pressing block 13; the pressing block 13 presses the sterilizing mechanism 20 on the chassis 11. The pressing block 13 can be mounted on the chassis 11 by means of clamping, sliding connection, pin joint or bolt connection, and when the pressing block 13 is mounted on the chassis 11, the pressing block 13 is pressed on the sterilizing mechanism 20, so that the sterilizing mechanism 20 is pressed on the chassis 11.

When the sterilizing mechanism 20 is directly mounted on the chassis 11, the pressing block 13 may have a Z-shaped or U-shaped structure, one end surface of which is detachably mounted on the chassis 11, and the other end surface of which is pressed against the sterilizing mechanism 20, so that the sterilizing mechanism 20 is pressed against the surface of the chassis 11.

When the installation is carried out by adopting the matching of the installation groove 12 and the pressing block 13, the pressing block 13 is pressed at the contact position of the sterilizing mechanism 20, so that the contact of the sterilizing mechanism 20 is pressed on the copper sheet in the installation groove 12. The pressing block 13 can be in a cuboid block structure, and the pressing block 13 is embedded in the mounting groove 12; an L-shaped structure may also be used.

On the basis of the dust removal device, the utility model discloses an embodiment of cleaning equipment.

Referring to fig. 3, fig. 3 is a schematic structural view of a cleaning device according to an embodiment of the present invention, which provides a cleaning device including a main body 10 and the dust removing device; the chassis 11 is arranged at the bottom of the body 10; the ash storage box 30 and the vacuum pumping mechanism 50 are arranged inside the body 10. During the movement of the body 10, the sterilization mechanism 20 sterilizes the floor, and simultaneously, the vacuum pumping mechanism 50 sucks dust on the floor into the inlet 31.

When the body 10 is mounted, the sterilizing unit 20 is installed at one side of the traveling direction of the body 10 in a traveling state, so that the sterilizing unit 20 performs a sterilizing operation on the ground while the body 10 is traveling.

The control system and other structures of the body 10 can be implemented by the prior art, and are not described in detail.

Referring to fig. 4, fig. 4 is a partial schematic view of the key and the roller assembly according to an embodiment of the present invention, and optionally, the body 10 is provided with a key 21 for controlling the opening and closing of the sterilizing mechanism 20. The position of the keys 21 can be determined according to the overall design requirements.

In order to realize the automatic opening of the sterilization mechanism 20, the body 10 of the present invention optionally has a roller assembly 14 capable of contracting towards the body 10; the key 21 is arranged beside the roller component 14; when the body 10 is in a walking state, the roller assembly 14 approaches the body 10 and presses the key 21, so that the sterilizing mechanism 20 is opened; when the body 10 is lifted, the roller assembly 14 is away from the button 21, so that the sterilizing mechanism 20 is closed.

Taking the sweeping robot as an example, when the retractable roller assembly 14 moves relative to the body 10, the roller assembly 14 acts on the button 21, when the roller assembly 14 presses the button 21, the sterilization mechanism 20 is turned on, and when the acting force of the roller assembly 14 on the button 21 disappears, the button 21 is turned off, and the sterilization mechanism 20 is turned off.

When the cleaning device is operated, the surface of the cleaning device moves relative to the surface to be cleaned, the roller assembly 14 moves along the surface to be cleaned, and when the roller assembly 14 contacts the surface to be cleaned, the roller assembly 14 is retracted towards the body 10 under the support of the surface to be cleaned; when the body 10 is lifted, the roller assembly 14 is separated from the surface to be cleaned, the surface to be cleaned has no relative acting force on the roller assembly 14, and the roller assembly 14 moves away from the body 10 under the action of gravity.

The roller assembly 14 can be rotatably connected with the body 10, the rotation range and the rotation direction of the roller assembly 14 relative to the body 10 can be limited in the existing mode, when the roller assembly 14 contacts the surface to be cleaned, the roller assembly 14 contracts towards the direction close to the body 10, and at the moment, the roller assembly 14 presses the key 21, so that the sterilization mechanism 20 is started; when the body 10 is lifted, the relative acting force between the roller assembly 14 and the surface to be cleaned disappears, the roller assembly 14 rotates in the direction away from the body 10, at this time, the roller assembly 14 is separated from the key 21, the pressure acting on the key 21 disappears, the key 21 bounces, and the sterilization mechanism 20 is closed.

In another embodiment of the present invention, the roller assembly 14 is connected to the body 10 in a relatively sliding manner, when the roller assembly 14 contacts the surface to be cleaned, the roller assembly 14 slides toward the body 10, that is, the roller assembly 14 contracts toward the body 10, so that the roller assembly 14 applies pressure to the button 21, and the button 21 is pressed to open the sterilizing mechanism 20; when the body 10 is lifted, the roller assembly 14 slides away from the body 10, and the pressure applied to the button 21 by the roller assembly 14 disappears, so that the button 21 pops up and the sterilizing mechanism 20 is closed.

In one embodiment of the present invention, the roller assembly 14 is composed of a rod 15 disposed on the body 10 and a gear 16 connected to the rod 15, a driving structure (not shown) for driving the rotation of the gear 16 is disposed on the rod 15, and when the driving structure is activated, the gear 16 rotates to realize the relative movement of the body 10 on the surface to be cleaned. The button 21 can cooperate with the rod 16, the rod 16 is arranged in a telescopic structure, when the gear 16 contacts the surface to be cleaned, the rod 16 is compressed, at this time, the rod 16 moves towards the direction close to the button 21, and the rod 16 presses the button 21, so that the sterilizing mechanism 20 is opened; when the gear 16 is disengaged from the surface to be cleaned, the rod 16 moves away from the button 21, and no pressure is applied to the surface of the button 21, so that the sterilizing mechanism 20 is closed.

When the body 10 walks, the body 10 is in a working state, the roller assembly 14 is on the ground, under the pressure action of the body 10, the roller assembly 14 contracts, and at the moment, the roller assembly 14 is pressed on the key 21, so that the sterilization mechanism 20 is opened.

When the body 10 is lifted, the roller assembly 14 is separated from the ground, and at this time, the roller assembly 14 moves away from the button 21 under the action of gravity, so that the sterilization mechanism 20 is closed.

When the button 21 is installed, the button 21 can be connected to the main power supply of the main body 10, and when the main power supply of the main body 10 is turned off, the sterilization mechanism 20 is in an off state.

In the scheme, under the working state of the body 10, the roller component 14 is pressed on the key 21, so that the sterilization mechanism 20 is in a sterilization working state; when the main body 10 is lifted, the main body 10 may need to be moved, inspected, cleaned, or the like, and the sterilizing unit 20 is closed. Particularly, when the electric heating structure is adopted as the sterilization mechanism 20, when the body 10 is lifted, the roller wheel assembly 14 moves away from the key 21, the sterilization mechanism 20 is powered off immediately, and the electric heating structure stops heating, so that a person is prevented from being scalded; when the ultraviolet sterilization structure is adopted, the damage of ultraviolet light to human bodies can be avoided.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. A dust removal device is characterized by comprising a chassis, a sterilization mechanism and an ash storage box;

the ash storage box is provided with an inlet, and the inlet is arranged on the chassis;

the ash storage box is provided with a vacuumizing mechanism, and the vacuumizing mechanism is used for sucking air with dust into the ash storage box through the inlet;

the sterilization mechanism is arranged on the chassis and close to the inlet and is used for sterilizing the air with dust entering the dust storage box.

2. The dust removing apparatus according to claim 1, wherein a roll brush is provided on the base plate;

the sterilizing mechanism is arranged on one side of the rolling brush, which is far away from the ash storage box;

the roll brush is configured to feed the dust-laden air sterilized by the sterilizing mechanism into the inlet.

3. The dust removing apparatus of claim 1, wherein the sterilization mechanism is an ultraviolet sterilization module and/or an electric heating sterilization module.

4. The dusting apparatus of claim 1 whereby the sterilization mechanism is removably mounted to the chassis.

5. The dust removing apparatus according to claim 4, wherein the base plate is provided with a mounting groove;

the sterilization mechanism is arranged in the mounting groove.

6. The dust removing device of claim 4 or 5, wherein the chassis is provided with a detachable pressing block;

the pressing block presses the sterilization mechanism on the chassis.

7. A cleaning device, comprising a body and a dust removing device as claimed in any one of claims 1 to 6;

the chassis is arranged at the bottom of the body;

the ash storage box and the vacuumizing mechanism are arranged inside the body.

8. The cleaning device as claimed in claim 7, wherein the body is provided with a button for controlling the sterilization mechanism to open and close.

9. The cleaning apparatus as defined in claim 8, wherein the body has a roller assembly retractable toward the body;

the key is arranged beside the roller component;

under the walking state of the body, the roller wheel assembly approaches to the direction of the body and presses the key so as to open the sterilization mechanism;

when the body is lifted, the roller wheel assembly is far away from the key, so that the sterilization mechanism is closed.

10. The cleaning apparatus defined in claim 9, wherein the roller assembly comprises a gear and a lever;

the rod piece is connected with the body;

the gear is rotationally connected to the rod piece;

under the gear walking state, the rod piece approaches to the body direction and presses the key to open the sterilization mechanism;

when the gear is lifted, the rod is far away from the key, so that the sterilization mechanism is closed.

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