CN220695172U

CN220695172U - Dust collection charging base station applied to sweeper

Info

Publication number: CN220695172U
Application number: CN202322041917.3U
Authority: CN
Inventors: 李如火; 刘留; 刘芳红
Original assignee: Shenzhen Kelaibao Intelligent Technology Co ltd
Current assignee: Shenzhen Kelaibao Intelligent Technology Co ltd
Priority date: 2023-07-29
Filing date: 2023-07-29
Publication date: 2024-04-02
Anticipated expiration: 2033-07-29

Abstract

The utility model discloses a dust collection charging base station applied to a sweeper, which comprises a shell mechanism, wherein an air outlet and a dust collection opening are arranged on the shell mechanism in a penetrating way; the circuit board, the air suction mechanism and the dust collection pipeline are fixedly arranged in the shell mechanism; two ends of the air suction mechanism are respectively communicated with the dust collection box mechanism and the air outlet; the dust box mechanism is detachably connected in the shell mechanism, and a filtering assembly is arranged in the dust box mechanism; one end of the dust collection pipeline is in sealing connection with the dust collection port, and the other end of the dust collection pipeline is communicated with the dust collection box mechanism; the charging mechanism is arranged on the shell mechanism in a penetrating way. According to the utility model, the garbage in the sweeper is sucked by the suction force generated by the suction mechanism, so that the garbage is sucked into the dust box mechanism, and then the garbage in the dust box mechanism is filtered and blocked by the filtering component, so that the problems of high cost and environmental protection in the prior art that the garbage in the sweeper is collected by the dust collecting and charging base station are effectively solved.

Description

Dust collection charging base station applied to sweeper

Technical Field

The utility model relates to the technical field of sweeper accessories, in particular to a dust collection charging base station applied to a sweeper.

Background

The dust collection charging base station can also be called as a dust collection charging seat, and is a device for recycling garbage collected by the sweeper and simultaneously charging the sweeper; the dust collection and charging base station sucks the garbage in the dust box of the sweeper into the dust box by adopting an air suction mode. In the prior art, a dust collection garbage bag is generally directly fixed in an air duct of a dust collection charging base station, and when garbage is sucked into the air duct of the dust collection charging base station, the garbage bag can be filled into the garbage bag; by adopting the mode of collecting the garbage, the requirement on the garbage bag is higher, and the garbage bag is required to have higher strength and be breathable, so that the garbage bag used by the existing dust collection charging base station is required to be customized, and generally, the non-woven fabric garbage bag is inconvenient to purchase and high in cost, and is a disposable product, so that the environment is not protected; therefore, the dust collecting and charging base station applied to the sweeper is provided and is used for solving the problems that the cost of collecting garbage in the sweeper by the dust collecting and charging base station is high and the sweeper is not environment-friendly in the prior art.

Disclosure of Invention

One of the purposes of the present utility model is to provide a dust collecting and charging base station for a sweeper, so as to solve the problems of high cost and environmental protection in the prior art that the dust collecting and charging base station collects garbage in the sweeper.

The utility model relates to a dust collection charging base station applied to a sweeper, which can be realized by the following technical scheme:

the utility model relates to a dust collection charging base station applied to a sweeper, which comprises a shell mechanism, wherein the shell mechanism is a hollow cavity, and an air outlet and a dust collection opening are arranged on the shell mechanism in a penetrating manner; the circuit board, the air suction mechanism and the dust collection pipeline are fixedly arranged in the shell mechanism; two ends of the air suction mechanism are respectively communicated with the dust collection box mechanism and the air outlet; the dust collection box mechanism is detachably connected in the shell mechanism and is a hollow cavity, and a filter assembly is arranged in the dust collection box mechanism; one end of the dust collection pipeline is in sealing connection with the dust collection port, and the other end of the dust collection pipeline is communicated with the dust collection box mechanism; the charging mechanism penetrates through the shell mechanism and is electrically connected with the circuit board.

In one embodiment, the upper housing is fixedly arranged on the lower housing through a fastening structure or a screw structure.

In one embodiment, an air suction pipeline is arranged in the upper shell and is respectively communicated with the air suction mechanism and the dust box mechanism; the lower end of the upper shell is provided with a through hole in a penetrating mode, and the through hole is connected with the dust collection pipeline in a sealing mode.

In one embodiment, the air suction mechanism comprises an air outlet pipeline and a fan; the fan is arranged in the shell mechanism, the air inlet end of the fan is communicated with the air suction pipeline, and the air outlet end of the fan is communicated with the air outlet pipeline; the other end of the air outlet pipeline is connected with the air outlet.

In one embodiment, the dust box mechanism further comprises a dust box body, a top cover, a bottom cover and at least one magnetic attraction piece; the dust box main body is a hollow cavity, and an air suction hole is formed in the dust box main body in a penetrating manner, and is communicated with the air suction pipeline in a sealing manner; the top cover is fixedly and hermetically arranged at the upper end of the dust box main body; the bottom cover is movably and detachably arranged at the lower end of the dust box main body, a dust inlet hole is formed in the bottom cover in a penetrating mode, and the dust inlet hole is communicated with the through hole in a sealing mode; the filter component is fixedly arranged on the dust box main body and communicated with the dust inlet hole; at least one magnetic attraction piece is fixedly arranged on the bottom cover.

In one embodiment, the dust box main body is a hollow rectangular cavity, and the side edge of the dust box main body is provided with a buckle; the bottom cover is provided with a clamping groove which is matched with the buckle.

In one embodiment, the top cover is provided with a handle.

In one embodiment, the filter assembly comprises a filter support, at least one second filter screen, and a dust collection channel; the filter support is fixedly arranged in the dust box main body, and at least one filter hole is formed in the filter support in a penetrating manner; at least one second filter screen is respectively arranged on the corresponding filter holes; the dust collection channel is fixedly arranged on the filter support and communicated with the dust inlet hole.

In one embodiment, the charging mechanism comprises a charging body and two magnetically attractable electrode contacts; the charging main body is arranged in the shell mechanism and is electrically connected with the circuit board; the two magnetic attraction electrode contacts are respectively arranged on the shell mechanism in a penetrating mode and are respectively and electrically connected with the charging main body.

In one embodiment, a battery is also fixedly arranged in the housing mechanism.

Compared with the prior art, the dust collection charging base station applied to the sweeper has the beneficial effects that:

the dust collecting and charging base station applied to the sweeper absorbs the garbage in the sweeper through the negative pressure suction force generated by the air suction mechanism, so that the garbage is collected into the dust collecting box body, and the garbage in the dust collecting box body is filtered and blocked through the filtering component, so that the problems of high cost and environmental protection in the prior art that the dust collecting and charging base station collects the garbage in the sweeper are effectively solved, the dust collecting box body can be recycled, and the dust collecting box has the advantages of environmental protection and environmental protection; the charging mechanism is used for charging the sweeper, so that the charging and dust collecting operations are performed simultaneously, and the working efficiency of the sweeper is improved to a certain extent;

according to the dust collection and charging base station applied to the floor sweeping machine, the bottom plate is movably arranged at the lower end of the dust collection box main body, the dust in the dust collection box main body is cleaned by opening the bottom plate, a user does not need to topple over, and meanwhile, under the action of gravity, the dust in the dust collection box main body can be completely cleaned, and the dust collection box main body is convenient to clean and disinfect.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present utility model and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of a dust collecting and charging base station applied to a sweeper according to the present utility model;

fig. 2 is a schematic cross-sectional structure of a dust collecting and charging base station for a sweeper according to the present utility model shown in fig. 1;

FIG. 3 is a schematic view of an explosion structure of a dust collecting and charging base station applied to a sweeper of FIG. 1, including an upper housing and a dust box mechanism;

FIG. 4 is a schematic view of the structure of the upper housing shown in FIG. 3;

FIG. 5 is a schematic cross-sectional view of the dust bin mechanism of FIG. 3;

FIG. 6 is a schematic view of an exploded construction of the dust bin mechanism of FIG. 3, including a bottom cover and a filter assembly;

FIG. 7 is a schematic view of the structure of the bottom cover shown in FIG. 6;

fig. 8 is a schematic view of the filter assembly of fig. 6.

The figures indicate: 11, a housing mechanism; 111, a lower housing; 1111, exhaust port; 1112, a dust suction port; 112, upper housing; 1121, an air intake duct; 1122, through holes; 1123, magnetic attraction holes; 12, a circuit board; 13, an air suction mechanism; 131, an air outlet pipeline; 1311, a first filter; 132, a fan; 14, a dust box mechanism; 141, a dust box body; 14141, air suction holes; 1412, a clasp; 142, a top cover; 1421, handle; 143, a bottom cover; 1431, a dust inlet; 1432, a connector; 1433, a clamping groove; 1434, seal groove; 1435, mounting holes; 144, a filter assembly; 1441, a filter holder; 144141, fixing the column; 1442, a second filter; 1443, dust collection channel; 145, magnetic attraction pieces; 146, sealing rings; 15, a dust collection pipeline; 16, a charging mechanism; 161 a charging body; 162, magnetically attracted electrode contacts; and 17, a battery.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the dust collecting and charging base station for a sweeper of the present utility model mainly includes a housing mechanism 11, a circuit board 12, an air suction mechanism 13, a dust collecting box mechanism 14, a dust collecting pipe 15, a charging mechanism 16 and a battery 17; the shell mechanism 11 is a hollow cavity, and an air outlet 1111 and a dust collection outlet 1112 are arranged on the hollow cavity in a penetrating way; the circuit board 12 is fixedly arranged in the shell mechanism 11 and is electrically connected with the air suction mechanism 13, the charging mechanism 16 and the battery 17 respectively; the air suction mechanism 13 is arranged in the shell mechanism 11, one end of the air suction mechanism is communicated with the dust box mechanism 14, the other end of the air suction mechanism is communicated with the air outlet 1111, and garbage in the sweeper is sucked into the dust box mechanism 14 for collection by the suction force generated by the air suction mechanism 13; the dust box mechanism 14 is a hollow cavity and is detachably connected in the shell mechanism 11, the dust box mechanism 14 filters and blocks the garbage sucked into the dust box mechanism, and the garbage in the dust box mechanism is prevented from entering the air suction mechanism 13; one end of the dust collection pipeline 15 is connected with the dust collection port 1112 in a sealing way, the other end of the dust collection pipeline is communicated with the dust collection box mechanism 14, and garbage in the sweeper enters the dust collection box mechanism 14 through the dust collection pipeline 15 for collection; the charging mechanism 16 penetrates through the shell mechanism 11 and is used for charging the sweeper; the battery 17 is fixedly arranged in the shell mechanism 11 and respectively supplies power to the circuit board 12 and the air suction mechanism 13; the air suction mechanism 13, the dust box mechanism 14, the dust collection pipeline 15 and the sweeper form a complete dust collection path.

Referring to fig. 1-3, in the present embodiment, the housing mechanism 11 includes a lower housing 111 and an upper housing 112, which are hollow cavities; the upper housing 112 is fixedly arranged on the lower housing 111 through a fastening structure or a screw structure; the circuit board 12, the air suction mechanism 13, the dust collection pipeline 15, the charging mechanism 16 and the battery 17 are respectively arranged in the lower shell 111, and the dust collection box mechanism 14 is detachably connected in the upper shell 112; the exhaust port 1111 and the dust suction port 1112 are respectively provided to penetrate the lower case 111.

Referring to fig. 1-4, in this embodiment, an air suction pipe 1121 is disposed in the upper housing 112, the air suction pipe 1121 is respectively connected to the air suction mechanism 13 and the dust box mechanism 14, and an air inlet end of the air suction mechanism 13 is connected to the dust box mechanism 14 through the air suction pipe 1121; the lower end of the upper casing 112 is provided with a through hole 1122 in a penetrating way, the through hole 1122 is in sealing connection with the dust collection pipeline 15, and the garbage in the sweeper sequentially passes through the dust collection port 1112, the dust collection pipeline 15 and the through hole 1122 and enters the dust collection box mechanism 14; the upper housing 112 is further provided with a plurality of magnetic attraction holes 1123, and a plurality of magnetic attraction bodies are fixedly arranged in the magnetic attraction holes 1123, and the dust box mechanism 14 is attracted by the plurality of magnetic attraction bodies.

Referring to fig. 3, in the present embodiment, the circuit board 12 is electrically connected to the air suction mechanism 13, the charging mechanism 16, and the battery 17, and the control technology adopted is the prior art, so specific control processes and product types adopted are not described herein, as long as the application is satisfied; in some embodiments, the circuit board 12 may be provided with a wireless communication module, through which the wireless communication module is wirelessly connected with the electronic terminal, and the user may wirelessly control the dust collection charging base station through an application program or an applet on the electronic terminal, and specifically, the wireless communication module may use one or more of a bluetooth wireless communication module, a WiFi wireless communication module, a 4G wireless communication module, and a 5G wireless communication module, and preferably, the wireless communication module uses a bluetooth wireless communication module.

Referring to fig. 2 and 3, in the present embodiment, the air suction mechanism 13 includes an air outlet pipe 131 and a fan 132; the fan 132 is arranged in the shell mechanism 11, the air inlet end of the fan 132 is communicated with the air suction pipeline 1121, and the air outlet end of the fan 132 is communicated with the air outlet pipeline 131; the other end of the air outlet pipe 131 is connected with the air outlet 1111; specifically, a first filter screen 1311 is disposed at a position of the air outlet pipe 131 close to the air outlet 1111, and the air discharged into the atmosphere is filtered by the first filter screen 1311; the fan 132 is of the prior art, so specific working processes and product types thereof will not be described herein, as long as the present application is satisfied.

Referring to fig. 3, 5 and 6, in the present embodiment, the dust box mechanism 14 includes a dust box body 141, a top cover 142, a bottom cover 143, a filter assembly 144 and at least one magnetic attraction member 145; the dust box main body 141 is a hollow cavity, and an air suction hole 1411 is formed in the hollow cavity in a penetrating manner, and the air suction hole 1411 is communicated with the air suction pipeline 1121 in a sealing manner; the top cover 142 is fixedly and hermetically arranged at the upper end of the dust box main body 141; the bottom cover 143 is movably and detachably arranged at the lower end of the dust box main body 141, and can be opened relative to the dust box main body 141, so that the dust in the dust box main body 141 can be poured out, a dust inlet 1431 is arranged on the bottom cover 143 in a penetrating manner, and the dust inlet 1431 is communicated with the through hole 1122 in a sealing manner; the filtering component 144 is fixedly arranged on the dust box main body 141 and is communicated with the dust inlet 1431, and is used for filtering and blocking the garbage in the dust box main body 141 and preventing the garbage in the dust box main body 141 from being sucked out of the air suction hole 1411 by negative pressure suction force and entering the air suction mechanism 13; the dust inlet 1431, the filter assembly 144, the dust box body 141 and the air suction hole 1411 are sequentially communicated to form an air suction channel; at least one of the magnetic attraction pieces 145 is fixedly provided on the bottom cover 143, and is attracted to each other by the corresponding magnetic attraction bodies in the upper housing 112, respectively, so as to attract the dust box mechanism 14 to the housing mechanism 11.

Referring to fig. 5 and 6, in the present embodiment, the dust box body 141 is a hollow rectangular cavity, and a buckle 1412 is provided at a side edge of the hollow rectangular cavity, and the bottom cover 143 is detachably connected to the lower end of the dust box body 141 by the cooperation of the buckle 1412 and the bottom cover 143; the top cover 142 is fixedly arranged at the upper end of the dust box main body 141 through a screw, a handle 1421 is arranged on the top cover, the dust box mechanism 14 is conveniently taken out from the shell mechanism 11 through the handle 1421, and meanwhile, the dust box mechanism 14 is conveniently carried; in order to enhance the air tightness between the dust box body 141 and the top cover 142, a sealing ring 146 is disposed at the connection position of the dust box body 141 and the top cover 142, and specifically, the sealing ring 146 is made of silica gel. In other embodiments, the dust box body 141 and the top cover 142 may be integrally formed.

Referring to fig. 6 and 7, in this embodiment, a connecting piece 1432 is disposed at one end of the bottom cover 143, and is movably disposed at a side of the dust box main body 141 through the connecting piece 1432, and specifically, the connecting piece 1432 is a rotating shaft or a hinge; a clamping groove 1433 is formed on the side opposite to the connecting piece 1432, the clamping groove 1433 is matched with the buckle 1412, and the bottom cover 143 is fixedly arranged at the lower end of the dust box main body 141; the bottom cover 143 is further provided with a sealing groove 1434 and at least one mounting hole 1435; the sealing groove 1434 is provided with a sealing ring 146, the sealing performance of the dust box main body 141 and the bottom cover 143 is enhanced through the sealing ring 146, and specifically, the sealing ring 146 is made of silica gel; the number of the mounting holes 1435 is matched with the number of the magnetic attraction pieces 145, and at least one magnetic attraction piece 145 is fixedly arranged in the corresponding mounting hole 1435. In this embodiment, the magnetic attraction member 145 may be a magnet or a iron block, and preferably, a strong magnet is used for the magnetic attraction member 145.

Referring to fig. 6 and 8, the filter assembly 144 includes a filter support 1441, at least one second filter screen 1442, and a dust collection channel 1443; the filter bracket 1441 is fixedly arranged in the dust box main body 141, and at least one filter hole is arranged on the filter bracket in a penetrating way; at least one second filter screen 1442 is respectively disposed on the corresponding filter holes, and functions to prevent the garbage in the dust box body 141 from being sucked out of the suction holes 1411 by negative pressure suction; the dust collection passage 1443 is fixedly disposed on the filter support 1441 and is communicated with the dust inlet 1431. In this embodiment, the filter support 1441 is in a 7 shape, and a plurality of fixing posts 14411 are provided thereon, and a plurality of screws respectively fix the filter support 1441 on the inner wall of the dust box body 141 and/or the top cover 142 through the corresponding fixing posts 14411.

Referring to fig. 2 and 3, in this embodiment, in order to enhance the airtight performance, a sealing ring 146 is disposed at the connection portion of the dust collection pipe 15 with the dust collection opening 1112 and the dust collection box mechanism 14, and specifically, the sealing ring 146 is made of silica gel. In the present embodiment, the charging mechanism 16 includes a charging body 161 and two magnetically attractive electrode contacts 162; the charging main body 161 is provided in the housing mechanism 11 and is electrically connected to the circuit board 12; the two magnetic electrode contacts 162 are respectively and penetratingly arranged on the shell mechanism 11 and are respectively and electrically connected with the charging main body 161, and the two magnetic electrode contacts 162 are respectively and electrically connected with the charging electrodes corresponding to the sweeper in a magnetic attraction manner, so that the sweeper is charged; the charging body 161 and the magnetic electrode contact 162 are of the prior art, so specific working processes and adopted product types are not described herein, and only the present application is satisfied. In this embodiment, the battery 17 is a rechargeable battery, and specifically, the battery 17 is a polymer lithium ion battery; in other embodiments, the power may also be supplied by directly electrically connecting the plug and the voltage regulator to the mains.

It should be noted that the specific working process of the dust collection charging base station applied to the sweeper of the utility model is as follows: negative pressure suction generated at the air inlet end of the blower 132 sequentially passes through the air suction pipe 1121, the air suction hole 1411 and the second filter screen 1442 to enter the dust box main body 141, and then sequentially passes through the dust suction channel 1443, the dust inlet 1431, the through hole 1122, the dust suction pipe 15 and the dust suction opening 1112 to enter a dust box of the sweeper to adsorb garbage in the dust box, and the garbage in the dust box sequentially passes through the dust suction opening 1112, the dust suction pipe 15, the through hole 1122, the dust inlet 1431 and the dust suction channel 1443 to enter the dust box main body 141 to be collected, and meanwhile, the second filter screen 1442 blocks the garbage in the dust box main body 141 from being sucked out to enter the blower 132, so that dust collection operation is completed; when the dust in the dust box body 141 needs to be cleaned, the dust box mechanism 14 is extracted from the shell mechanism 11 through the handle 142, and then the bottom cover 143 is opened to pour out the dust in the dust box body 141.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims

1. The dust collection and charging base station is characterized by comprising a shell mechanism, wherein the shell mechanism is a hollow cavity, and an air outlet and a dust collection opening are arranged on the shell mechanism in a penetrating manner; the circuit board, the air suction mechanism and the dust collection pipeline are fixedly arranged in the shell mechanism; two ends of the air suction mechanism are respectively communicated with the dust collection box mechanism and the air outlet; the dust collection box mechanism is detachably connected in the shell mechanism and is a hollow cavity, and a filter assembly is arranged in the dust collection box mechanism; one end of the dust collection pipeline is in sealing connection with the dust collection port, and the other end of the dust collection pipeline is communicated with the dust collection box mechanism; the charging mechanism penetrates through the shell mechanism and is electrically connected with the circuit board.

2. The dust collecting and charging base station for a sweeper according to claim 1, wherein the housing mechanism comprises a lower housing and an upper housing, both of which are hollow cavities; the upper shell is fixedly arranged on the lower shell through a buckle structure or a screw structure.

3. The dust collecting and charging base station for the sweeper according to claim 2, wherein an air suction pipeline is arranged in the upper shell and is respectively communicated with the air suction mechanism and the dust collecting box mechanism; the lower end of the upper shell is provided with a through hole in a penetrating mode, and the through hole is connected with the dust collection pipeline in a sealing mode.

4. A dust collecting and charging base station for a sweeper according to claim 3, wherein the air suction mechanism comprises an air outlet pipeline and a fan; the fan is arranged in the shell mechanism, the air inlet end of the fan is communicated with the air suction pipeline, and the air outlet end of the fan is communicated with the air outlet pipeline; the other end of the air outlet pipeline is connected with the air outlet.

5. A dust collecting and charging base station for a sweeper according to claim 3, wherein the dust collecting box mechanism further comprises a dust collecting box body, a top cover, a bottom cover and at least one magnetic attraction piece; the dust box main body is a hollow cavity, and an air suction hole is formed in the dust box main body in a penetrating manner, and is communicated with the air suction pipeline in a sealing manner; the top cover is fixedly and hermetically arranged at the upper end of the dust box main body; the bottom cover is movably and detachably arranged at the lower end of the dust box main body, a dust inlet hole is formed in the bottom cover in a penetrating mode, and the dust inlet hole is communicated with the through hole in a sealing mode; the filter component is fixedly arranged on the dust box main body and communicated with the dust inlet hole; at least one magnetic attraction piece is fixedly arranged on the bottom cover.

6. The dust collecting and charging base station for the floor sweeping machine according to claim 5, wherein the dust collecting box body is a hollow rectangular cavity, and a buckle is arranged at the side edge of the hollow rectangular cavity; the bottom cover is provided with a clamping groove which is matched with the buckle.

7. The dust collecting and charging base station for a sweeper according to claim 5, wherein a handle is provided on the top cover.

8. The dust collecting and charging base station for a sweeper of claim 5 wherein the filter assembly comprises a filter support, at least one second filter screen and a dust collection channel; the filter support is fixedly arranged in the dust box main body, and at least one filter hole is formed in the filter support in a penetrating manner; at least one second filter screen is respectively arranged on the corresponding filter holes; the dust collection channel is fixedly arranged on the filter support and communicated with the dust inlet hole.

9. The dust collecting and charging base station for a sweeper according to claim 1, wherein the charging mechanism comprises a charging body and two magnetically attracted electrode contacts; the charging main body is arranged in the shell mechanism and is electrically connected with the circuit board; the two magnetic attraction electrode contacts are respectively arranged on the shell mechanism in a penetrating mode and are respectively and electrically connected with the charging main body.

10. A dust collecting and charging base station for a sweeper according to any of claims 1-9, wherein a battery is also fixedly arranged in the housing means.