CN214259200U - Intelligent robot dust box and sweeper - Google Patents

Abstract

The application discloses intelligent robot dirt box and machine of sweeping floor. The intelligent robot dust box comprises an upper cover structure, a body structure, a plurality of cones, a fan blade structure and a filter screen. The upper cover structure is formed with a fan port. The body structure is connected with the upper cover structure, the body structure and the upper cover structure jointly form a dust collecting cavity, and the body structure is provided with an air inlet communicated with the dust collecting cavity. The multi-cone is arranged in the dust collecting chamber and communicated with the air inlet and the fan port. The fan blade structure is arranged on the multi-cone. The filter screen is arranged in the dust collecting chamber and separates the air inlet and the multi-cone. The application provides a technical scheme can improve the life of sea handkerchief, guarantees the normal work of machine of sweeping the floor.

Description

Intelligent robot dust box and sweeper

Technical Field

The application relates to the technical field of sweeper, in particular to an intelligent robot dust box and a sweeper.

Background

With the improvement and innovation of industrial technology, the living standard of people is gradually improved, the intelligent sweeping robot is led to thousands of households, dust is filtered through the HEPA by the conventional sweeping machine, and after the sweeping machine works for a certain time, the HEPA is blocked by a large amount of dust, so that the service life of the HEPA is short, and the sweeping machine is difficult to work normally.

SUMMERY OF THE UTILITY MODEL

The application provides an intelligent robot dirt box and machine of sweeping floor, its life that can improve the sea handkerchief guarantees the normal work of machine of sweeping floor.

In a first aspect, the utility model provides an intelligent robot dirt box, include:

an upper cover structure forming a fan port;

the body structure is connected with the upper cover structure, the body structure and the upper cover structure jointly form a dust collecting chamber, and an air inlet communicated with the dust collecting chamber is formed in the body structure;

the multi-cone is arranged in the dust collecting chamber and communicated with the air inlet and the fan port;

the fan blade structure is arranged on the multi-cone; and

and the filter screen is arranged in the dust collecting chamber and separates the air inlet and the multi-cone.

In the implementation process, the intelligent robot dust box is applied to the sweeper, a fan of the sweeper is connected with a fan port through HEPA, and airflow is sucked by the air inlet through the multi-cone body, so that garbage enters the dust collecting chamber through the air inlet; big rubbish is intercepted by the filter screen, and the air current can produce the whirlwind under the effect of flabellum structure, reaches the effect of dirt gas separation, and tiny rubbish falls in many cones, and the air current continues to flow out by the fan mouth through the sea handkerchief. After the fan blade structures are added to the multi-cone sweeper, fine garbage in airflow can be effectively separated, the probability of blockage of the HEPA is reduced, the service life of the HEPA is prolonged, and normal work of the sweeper is guaranteed.

In an alternative embodiment, the multi-cone is configured with a body overmold;

the body rubber coating is arranged at the lower end of the multi-cone body, and the body rubber coating and the bottom of the body structure jointly form a micro dust cavity.

In the process of realizing, fine garbage can fall into the fine dust cavity under the action of the fan blade structure, so that the fine garbage is prevented from being mixed into the air flow again under the action of the air flow, and the effectiveness of dust-gas separation is ensured.

In an alternative embodiment, the fan blade structure comprises a bracket and a fan blade body, wherein the fan blade body is connected with the bracket;

the fan blade body is inserted in the multi-cone, and the support abuts against the upper end of the multi-cone.

In the process of realizing the dust and gas separating device, the fan blade body is inserted into the multi-cone body to play a role in separating dust and gas, and the support plays a supporting role to ensure that the fan blade body stably plays a role in separating dust and gas in the multi-cone body.

In an alternative embodiment, the multi-cone comprises a plurality of cone pipes connected in sequence, and a fan blade body is inserted in each cone pipe.

In the process of realizing, the multiple cone pipes and the fan blade body work together, so that the dust-gas separation efficiency can be effectively improved, the dust-gas separation effect is ensured, a large amount of micro dust is prevented from entering the HEPA, and the service life of the HEPA is ensured.

In an alternative embodiment, the cover structure is removably connected to the body structure;

the upper cover structure is provided with a fool-proof key, the body structure is provided with a body bone position, and the fool-proof key is abutted against the body bone position so as to prevent the upper cover from being connected with the body structure;

the multi-cone is provided with a cone handle which is linked with the fool-proof key to drive the fool-proof key to be separated from the position of the body bone.

Above-mentioned in-process of realizing, prevent staying the key through setting up, can remind many cones effectively whether by neglected loading, avoid taking place because of leaking the condition that many cones of form caused the sea handkerchief to destroy: when the multi-cone is not installed, the fool-proof key cannot be linked with the cone handle, the fool-proof key abuts against the position of the bone of the body, and the upper cover structure cannot be connected with the body structure; when installing many cones, the cone handle links with preventing slow-witted key, orders about to prevent slow-witted key and breaks away from in body position of bone for upper cover structure and body structure are normally connected.

In an alternative embodiment, the fool-proof key comprises a top abutting plate and an elastic piece, the top abutting plate is rotatably arranged on the upper cover structure, and the elastic piece is arranged between the top abutting plate and the upper cover structure;

the top propping plate props against the bone position of the body under the action of the elastic piece;

the cone handle is propped against the propping plate to drive the propping plate to overcome the elastic force of the elastic piece and to be separated from the body bone.

In the process of the realization, the fool-proof key is simple in structure, after the multi-cone is installed, the cone handle is abutted against the abutting plate, so that the abutting plate rotates, the abutting plate is separated from the body bone position, the upper cover structure is smoothly connected with the body structure, and when the multi-cone is not installed, the abutting plate is abutted against the body bone position under the elastic action of the elastic piece, so that the upper cover structure and the body structure are prevented from being close to each other, and an operator is effectively reminded that the multi-cone is not assembled.

In an alternative embodiment, the multi-cone is provided with a cone cover plate, and the cone cover plate covers the upper end of the multi-cone;

the cone handle is convexly arranged on the surface of the cone cover plate.

In the implementation process, the cone cover plate covers the upper end of the multi-cone, so that the fan blade structure positioned in the multi-cone can be effectively protected, and meanwhile, the fan blade structure is stably positioned in the multi-cone.

In an alternative embodiment, the body structure comprises a shell and a bottom cover, and the air inlet is formed in the bottom cover;

the shell is connected with the upper cover structure;

the bottom cover comprises a hinged end and a fastening end, the hinged end is hinged with the shell, and the fastening end is fastened with the shell;

the body structure is provided with a push-open elastic piece which is arranged between the hinged end and the shell and used for driving the buckled end to be far away from the shell.

In the implementation process, after the sweeper works for a certain time, garbage can be accumulated in the dust collection chamber and needs to be cleaned; when an operator buckles the buckling end of the bottom cover from the shell, the bottom cover can be opened under the action of the pushing block elastic piece, and the bottom cover rotates around the hinged end of the bottom cover, so that the opening between the bottom cover and the shell is kept in an expanded state, and garbage can be conveniently removed from the dust collecting cavity.

In an optional embodiment, the intelligent robot dust box further comprises a bottom cover glue and a soft glue sealing ring;

the bottom cover is encapsulated in the bottom cover and is used for being in sealing fit with the shell;

the flexible glue sealing ring is arranged inside the upper cover structure and is used for being matched with the edge of the multi-cone in a sealing mode.

In the implementation process, the bottom cover is in sealing fit with the shell through the bottom cover rubber coating, so that when the sweeper works, air flow is prevented from leaking, and the air inlet can effectively suck garbage into the dust collection chamber; the multi-cone is effectively sealed with the upper cover structure through the soft rubber sealing ring, and the effect of dust-gas separation is guaranteed.

In a second aspect, the present invention provides a sweeper comprising the intelligent robot dust box of any of the previous embodiments;

the fan mouth of the intelligent robot dust box is provided with a HEPA, and is connected with the fan of the sweeper through the HEPA.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is a perspective view of an intelligent robot dust box in the present embodiment;

FIG. 2 is a perspective exploded view of the dust box of the intelligent robot in the present embodiment;

FIG. 3 is a schematic diagram of the operation of the dust box of the intelligent robot in the present embodiment;

FIG. 4 is a perspective view of the fan blade structure of this embodiment;

FIG. 5 is a perspective view of the multi-cone of the present embodiment;

FIG. 6 is a perspective view of the upper cover structure of the present embodiment when opened relative to the body structure;

FIG. 7 is a perspective view of the cone cover plate in this embodiment;

FIG. 8 is a perspective view of the upper cover structure in this embodiment;

fig. 9 is a sectional view of the smart robot dust box in this embodiment.

Icon: 10-an upper cover structure; 11-a body structure; 12-multi-cone; 13-fan blade configuration; 14-a filter screen; 15-fan port; 16-air inlet; 17-encapsulating the body; 18-a dust micro chamber; 19-a scaffold; 20-a fan blade body; 21-a cone tube; 22-fool-proof key; 23-body position of bone; 24-a cone handle; 25-a card slot; 26-a top abutment plate; 27-an elastic member; 28-cone cover plate; 29-a housing; 30-a bottom cover; 31-a hinged end; 32-a snap-fit end; 33-pushing away the elastic member; 34-a rotating shaft; 35-Soft rubber seal ring.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the embodiments of the present application, it is to be understood that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like, refer to the orientation or positional relationship as shown in the drawings, or as conventionally placed in use of the product of the application, or as conventionally understood by those skilled in the art, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore should not be considered as limiting the present application.

In the description of the embodiments of the present application, it should also be noted that, unless otherwise explicitly stated or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

The technical solution in the present application will be described below with reference to the accompanying drawings.

The embodiment provides an intelligent robot dust box, and its life that can improve the sea handkerchief guarantees the normal work of machine of sweeping the floor.

Referring to fig. 1-5, fig. 1 is a perspective view of an intelligent robot dust box in the present embodiment, fig. 2 is a perspective exploded view of the intelligent robot dust box in the present embodiment, fig. 3 is a working principle diagram of the intelligent robot dust box in the present embodiment, fig. 4 is a perspective view of a fan blade structure 13 in the present embodiment, and fig. 5 is a perspective view of a multi-cone 12 in the present embodiment.

The intelligent robot dust box comprises an upper cover structure 10, a body structure 11, a multi-cone 12, a fan blade structure 13 and a filter screen 14.

The upper cover structure 10 is formed with a fan port 15. The main body structure 11 is connected with the upper cover structure 10, the main body structure 11 and the upper cover structure 10 together form a dust collecting chamber, and the main body structure 11 is formed with an air inlet 16 communicated with the dust collecting chamber.

The multi-cone 12 is disposed in the dust collecting chamber and communicates with the air inlet 16 and the blower port 15.

The fan blade structure 13 is provided on the multi-cone 12. A screen 14 is provided in the dust collecting chamber and separates the air inlet 16 and the multi-cone 12.

In the implementation process, the intelligent robot dust box is applied to a sweeper, a fan of the sweeper is connected with a fan port 15 through HEPA, and airflow is sucked only through the multi-cone 12 from the air inlet 16, so that garbage enters the dust collecting chamber from the air inlet 16; the large garbage is intercepted by the filter screen 14, the airflow can generate cyclone under the action of the fan blade structure 13, the dust-air separation effect is achieved, the small garbage falls in the multi-cone 12, and the airflow continuously passes through the HEPA and flows out of the fan port 15. After the fan blade structures 13 are added to the multi-cone 12, fine garbage in airflow can be effectively separated, the probability of blocking of the HEPA is reduced, the service life of the HEPA is prolonged, and the normal work of the sweeper is guaranteed.

Referring to fig. 3, the flow of the gas flow is indicated by arrows in fig. 3: an air inlet 16, a steel mesh, a multi-cone 12, a fan blade structure 13, a HEPA and a fan port 15. Here, the hypa is not drawn in the drawing, and the position of the hypa is indicated by the letter a plus an arrow.

Referring to fig. 2 and 5, in the present disclosure, the multi-cone 12 is configured with a body overmold 17. The body rubber coating 17 is arranged at the lower end of the multi-cone 12, and the body rubber coating 17 and the bottom of the body structure 11 jointly form a micro dust cavity 18.

It should be noted that the dust collecting chamber 18 is separated from the dust collecting chamber for receiving larger waste by the combined action of the body encapsulation 17 and the body structure 11 to collect smaller waste.

In the implementation process, the fine garbage can fall into the fine dust cavity 18 under the action of the fan blade structure 13, so that the fine garbage is prevented from being mixed into the air flow again under the action of the air flow, and the effectiveness of dust-air separation is ensured.

In the present disclosure, the fan blade structure 13 includes a bracket 19 and a fan blade body 20, and the fan blade body 20 is connected to the bracket 19. The fan blade body 20 is inserted into the multi-cone 12, and the bracket 19 abuts against the upper end of the multi-cone 12.

In the implementation process, the fan blade body 20 is inserted into the multi-cone 12 to perform the dust-air separation function, and the support 19 performs the supporting function to ensure that the fan blade body 20 stably performs the dust-air separation function in the multi-cone 12.

It should be noted that the multi-cone 12 includes a plurality of cone pipes 21 connected in sequence, and each cone pipe is inserted with a fan blade body 20.

In the process of realizing, the multiple cone pipes 21 and the fan blade body 20 work together, so that the dust-gas separation efficiency can be effectively improved, the dust-gas separation effect is ensured, a large amount of micro dust is prevented from entering the HEPA, and the service life of the HEPA is ensured.

Referring to fig. 6 to 9, fig. 6 is a perspective view of the upper cover structure 10 of the present embodiment when opened with respect to the body structure 11, fig. 7 is a perspective view of the cone cover plate 28 of the present embodiment, fig. 8 is a perspective view of the upper cover structure 10 of the present embodiment, and fig. 9 is a sectional view of the intelligent robot dust box of the present embodiment.

The cover structure 10 is detachably connected to the body structure 11.

The upper cover structure 10 is provided with a fool-proof key 22, the body structure 11 is provided with a body bone position 23, and the fool-proof key 22 is abutted against the body bone position 23 to prevent the upper cover from being connected to the body structure 11;

the multi-cone 12 is configured with a cone handle 24, and the cone handle 24 is linked with the fool-proof key 22 to drive the fool-proof key 22 to be separated from the body bone 23.

Above-mentioned in-process of realizing, through setting up prevent slow-witted key 22, can remind many cones 12 effectively whether by neglected loading, avoid taking place because of leaking the condition that many cones 12 of form cause the sea handkerchief to destroy: when the multi-cone 12 is not installed, the fool-proof key 22 cannot be linked with the cone handle 24, and then the fool-proof key 22 abuts against the body rib position 23, and the upper cover structure 10 cannot be connected with the body structure 11; when the multi-cone 12 is installed, the cone handle 24 is linked with the fool-proof key 22 to drive the fool-proof key 22 to be separated from the body rib position 23, so that the upper cover structure 10 is normally connected with the body structure 11.

It should be noted that, with reference to fig. 6 and 9, one end of the upper cover structure 10 is hinged to the main body structure 11, and the other end of the upper cover structure 10 is fastened to the main body structure 11, when the dust collecting chamber needs to be cleaned, the upper cover structure 10 can be rotated relative to the main body structure 11 by opening the end of the upper cover structure 10 fastened to the main body structure 11, so as to conveniently clean the interior of the main body structure 11; meanwhile, it should be noted that the multi-cone 12 is directly placed inside the body structure 11 (the body has a slot 25 corresponding to the multi-cone 12, the multi-cone 12 is placed in the slot 25), during cleaning, the multi-cone 12 and the fan blade structure 13 connected to the multi-cone 12 can be directly taken down, the multi-cone 12 and the fan blade structure 13 are cleaned, and after cleaning, if the fan blade structure 13 and the multi-cone 12 are not installed, the upper cover structure 10 cannot be fastened with the body structure 11 under the action of the fool-proof key 22.

Referring to fig. 8 in conjunction with fig. 9, the fool-proof key 22 includes a top-abutting plate 26 and an elastic member 27, the top-abutting plate 26 is rotatably disposed on the upper cover structure 10, and the elastic member 27 is disposed between the top-abutting plate 26 and the upper cover structure 10.

The top abutting plate 26 abuts against the main body rib 23 under the action of the elastic member 27.

The taper handle 24 abuts against the abutting plate 26 to drive the abutting plate 26 to overcome the elastic force of the elastic member 27 and to be separated from the main body framework 23.

In the implementation process, the fool-proof key 22 is simple in structure, after the multi-cone 12 is installed, the cone handle 24 abuts against the abutting plate 26, so that the abutting plate 26 rotates, the abutting plate 26 is separated from the body bone 23, the upper cover structure 10 is smoothly connected with the body structure 11, when the multi-cone 12 is not installed, the abutting plate 26 abuts against the body bone 23 under the elastic action of the elastic piece 27, the upper cover structure 10 and the body structure 11 are prevented from approaching each other, and an operator is effectively reminded that the multi-cone 12 is not assembled.

In the present disclosure, the multi-cone 12 is configured with a cone cover plate 28, and the cone cover plate 28 covers the upper end of the multi-cone 12. The cone handle 24 is raised from the surface of the cone cover 28.

In the implementation process, the cone cover plate 28 covers the upper end of the multi-cone 12, so that the fan blade structure 13 located inside the multi-cone 12 can be effectively protected, and meanwhile, the fan blade structure 13 is stably located inside the multi-cone 12.

It should be noted that a plurality of through holes are formed on the surface of the cone cover plate 28, and correspond to the openings of the plurality of cone pipes 21 and the fan blade bodies 20, so as to ensure that the air flow can flow to the hpa through the through holes.

Referring again to fig. 6, the body structure 11 includes a housing 29 and a bottom cover 30, and the air inlet 16 is formed in the bottom cover 30. The housing 29 is connected to the cover structure 10.

The bottom cover 30 includes a hinged end 31 and a fastening end 32, the hinged end 31 is hinged to the housing 29, and the fastening end 32 is fastened to the housing 29. The body structure 11 is provided with a push-open spring 33, the push-open spring 33 being disposed between the hinge end 31 and the housing 29 for urging the snap end 32 away from the housing 29.

In the implementation process, after the sweeper works for a certain time, garbage can be accumulated in the dust collection chamber and needs to be cleaned; when the operator snaps the snap end 32 of the bottom cover 30 away from the housing 29, the bottom cover 30 opens under the action of the resilient member 27 of the push block, and the bottom cover 30 pivots about its hinged end 31 so that the opening between the bottom cover 30 and the housing 29 remains expanded to facilitate the removal of debris from the dust collection chamber.

It should be noted that the hinged end 31 may be hinged to the housing 29 through a rotating shaft 34, the push block elastic member 27 may include two torsion springs disposed on the rotating shaft 34, and the two torsion springs are disposed at two ends of the rotating shaft 34 (as shown in fig. 2).

In this disclosure, the dust box of the intelligent robot further comprises a bottom cover adhesive and a soft adhesive sealing ring 35.

The bottom cap is encapsulated within the bottom cap 30 for sealing engagement with the housing 29. The soft rubber sealing ring 35 is arranged inside the upper cover structure 10 and is used for being matched with the edge of the multi-cone 12 in a sealing mode.

In the implementation process, the bottom cover 30 is in sealing fit with the shell 29 through the bottom cover rubber coating, so that when the sweeper works, air flow is prevented from leaking, and the air inlet 16 can effectively suck garbage into the dust collection chamber; the multi-cone 12 is effectively sealed with the upper cover structure 10 through the soft rubber sealing ring 35, and the effect of dust-gas separation is guaranteed.

It should be noted that, in the present disclosure, since the cone cover plate 28 covers the upper end of the multi-cone 12, the soft rubber sealing ring 35 is in sealing fit with the upper end of the cone cover plate 28 to form a good sealing effect.

It should be noted that the present disclosure also provides a sweeper, which includes the above-described intelligent robot dust box. The fan mouth 15 of the intelligent robot dust box is provided with a HEPA, and is connected with the fan of the sweeper through the HEPA.

In the intelligent robot dust box, after the fan blade structures 13 are added to the multi-cone 12, fine garbage in airflow can be effectively separated, the probability of blocking of the HEPA is reduced, the service life of the HEPA is prolonged, and the normal work of the sweeper is guaranteed.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. An intelligent robot dirt box, comprising:

an upper cover structure forming a fan port;

the body structure is connected with the upper cover structure, the body structure and the upper cover structure jointly form a dust collecting chamber, and an air inlet communicated with the dust collecting chamber is formed in the body structure;

the multi-cone is arranged in the dust collecting chamber and is communicated with the air inlet and the fan port;

the fan blade structure is arranged on the multi-cone; and

and the filter screen is arranged in the dust collecting chamber and separates the air inlet and the multi-cone.

2. The intelligent robotic dust box of claim 1,

the multi-cone is configured with a body overmold;

the body rubber coating is arranged at the lower end of the multi-cone body, and the body rubber coating and the bottom of the body structure form a micro dust cavity together.

3. The intelligent robotic dust box of claim 2,

the fan blade structure comprises a support and a fan blade body, and the fan blade body is connected with the support;

the fan blade body is inserted into the multi-cone, and the support abuts against the upper end of the multi-cone.

4. The intelligent robotic dust box of claim 3,

the multi-cone comprises a plurality of cone pipes which are connected in sequence, and the fan blade body is inserted into each cone pipe.

5. The intelligent robotic dust box of claim 1,

the upper cover structure is detachably connected with the body structure;

the upper cover structure is provided with a fool-proof key, the body structure is provided with a body bone position, and the fool-proof key is abutted against the body bone position so as to prevent the upper cover from being connected to the body structure;

the multi-cone is provided with a cone handle, and the cone handle is linked with the fool-proof key to drive the fool-proof key to be separated from the position of the body bone.

6. The intelligent robotic dust box of claim 5,

the foolproof key comprises a top abutting plate and an elastic piece, the top abutting plate is rotatably arranged on the upper cover structure, and the elastic piece is arranged between the top abutting plate and the upper cover structure;

the top propping plate props against the bone position of the body under the action of the elastic piece;

the cone handle is abutted against the abutting plate to drive the abutting plate to overcome the elastic force of the elastic piece and separate from the body bone.

7. The intelligent robotic dust box of claim 6,

the multi-cone is provided with a cone cover plate, and the cone cover plate covers the upper end of the multi-cone;

the cone handle is convexly arranged on the surface of the cone cover plate.

8. The intelligent robotic dust box of claim 1,

the body structure comprises a shell and a bottom cover, and the air inlet is formed in the bottom cover;

the shell is connected with the upper cover structure;

the bottom cover comprises a hinged end and a buckling end, the hinged end is hinged with the shell, and the buckling end is buckled with the shell;

the body structure is provided with a push-away elastic piece, and the push-away elastic piece is arranged between the hinged end and the shell and used for driving the buckled end to be far away from the shell.

9. The intelligent robotic dust box of claim 8,

the intelligent robot dust box also comprises a bottom cover adhesive and a soft adhesive sealing ring;

the bottom cover is arranged in the bottom cover in an encapsulated mode and is used for being in sealing fit with the shell;

the soft rubber sealing ring is arranged in the upper cover structure and is used for being matched with the edge of the multi-cone in a sealing mode.

10. A sweeper, which is characterized in that,

the sweeper comprises the intelligent robot dust box of any one of claims 1-9;

the fan mouth of the intelligent robot dust box is provided with a sea handkerchief, and the sea handkerchief is connected with the fan of the sweeper.

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