Base stations and cleaning systems

By making the charging structure detachably connected to the base station body, the problem of having to disassemble the base station for maintenance when the charging structure is damaged in the existing technology is solved, thus achieving the effect of simplifying replacement and reducing maintenance costs.

CN224344841UActive Publication Date: 2026-06-12FOSHAN SHUIBAODUN TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FOSHAN SHUIBAODUN TECH CO LTD
Filing Date
2025-05-16
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

If the charging structure of an existing base station is damaged, the base station needs to be disassembled for inspection and maintenance, which increases maintenance costs.

Method used

The charging structure is detachably connected to the base station body, making it easy to replace and reducing maintenance costs.

Benefits of technology

The detachable charging structure design simplifies the replacement process, reduces base station maintenance costs, and improves user experience.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224344841U_ABST
Patent Text Reader

Abstract

This utility model discloses a base station and a cleaning system. The base station is used for detachably docking with cleaning equipment. The base station includes: a base station body; and a charging structure disposed on the base station body. The charging structure is used to charge the cleaning equipment when it docks with the base station body. The charging structure is detachably connected to the base station body. According to this utility model embodiment, the base station is detachably connected to the base station body via the charging structure, facilitating the replacement of the charging structure.
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Description

[0001] Cross-reference to related applications

[0002] This application claims priority to Chinese Patent Application No. 202510363243.X, filed on March 25, 2025, entitled "Cleaning Equipment, Base Station and Cleaning System", the entire contents of which are incorporated herein by reference. Technical Field

[0003] This utility model relates to the technical field of cleaning tools, specifically to a base station and a cleaning system. Background Technology

[0004] In recent years, cleaning equipment has gradually shifted from a standalone model to a base station model. Many cleaning devices are equipped with corresponding base stations, which can have functions such as self-cleaning, automatic dust collection, and charging of the cleaning equipment. In related technologies, the charging structure of existing base stations includes wired charging and wireless charging. Most of the charging structure is integrated into the base station, and the cleaning equipment can be charged simply by placing it on the base station. However, if the charging structure is damaged and cannot charge, the base station needs to be disassembled for inspection, increasing the maintenance cost of the base station. Utility Model Content

[0005] One objective of this invention is to provide a base station and a cleaning system, wherein the charging structure is detachably connected to the base station body, facilitating the replacement of the charging structure.

[0006] A base station according to an embodiment of the present invention is used for detachably docking with cleaning equipment, comprising:

[0007] Base station main body;

[0008] A charging structure is provided on the base station body. The charging structure is used to charge the cleaning equipment when the cleaning equipment is docked with the base station body. The charging structure is detachably connected to the base station body.

[0009] According to the embodiments of the present invention, the base station is detachably connected to the base station body via a charging structure, which facilitates the disassembly and replacement of the charging structure without disassembling the base station body to replace the charging structure, thereby reducing the maintenance cost of the base station.

[0010] In addition, the base station according to the above embodiments of the present invention may also have the following additional technical features:

[0011] In some embodiments, the base station further includes an assembly part mounted on the base station body, and the charging structure is detachably connected to the assembly part.

[0012] In some embodiments, the assembly has a detachable position and a fixed position, and the charging structure is farther from the base station body in the detachable position than in the fixed position.

[0013] In some embodiments, one end of the assembly is rotatably connected to the base station body, and the charging structure is detachably connected to the other end of the assembly.

[0014] In some embodiments, the assembly is slidably connected to the base station body.

[0015] In some embodiments, the assembly is detachably connected to the base station body.

[0016] In some embodiments, the assembly includes a fastener having an assembly cavity, and the charging structure is detachably disposed in the assembly cavity.

[0017] In some embodiments, the assembly cavity has an opening, and when the assembly part is installed on the base station body, the opening is covered by the base station body.

[0018] In some embodiments, the base station body is provided with a first assembly groove, and when the assembly part is connected to the base station body, at least a portion of the fastener is disposed in the first assembly groove.

[0019] In some embodiments, the base station body has a first arc-shaped surface and a second assembly groove, the assembly part has a second arc-shaped surface, and when the assembly part is connected to the base station body, the assembly part is embedded in the second assembly groove, and the first arc-shaped surface and the second arc-shaped surface correspond to each other in the vertical direction.

[0020] In some embodiments, one of the assembly part and the base station body is provided with a buckle and the other is provided with a slot. When the assembly part is connected to the base station body, the buckle is engaged in the slot.

[0021] In some embodiments, the base station includes a connecting line that connects to the charging structure, and the outer surface of the base station body is provided with multiple wire-clamping structures for clamping the connecting line.

[0022] In some embodiments, the base station body includes a main interface for docking with the cleaning equipment, and the charging structure is located near the main interface.

[0023] In some embodiments, the charging structure is configured to be electrically connected to the cleaning device when the cleaning device docks with the base station body, and to charge the cleaning device.

[0024] In some embodiments, the base station body includes a dust collection chamber and a bypass channel. The dust collection chamber is used to communicate with a cleaning device to collect dirt from the cleaning device. The bypass channel communicates with the dust collection chamber and has a self-cleaning interface. The self-cleaning interface is used to dock with the cleaning device to generate negative pressure in the dust collection chamber using the suction device of the cleaning device.

[0025] A base station according to another embodiment of the present invention is used for detachably docking with cleaning equipment, comprising:

[0026] Base station main body;

[0027] A charging structure is provided on the base station body. The charging structure is used to charge the cleaning equipment when the cleaning equipment is connected to the base station body. The charging structure is fixedly installed on the base station body.

[0028] In some embodiments, the base station body includes a dust collection chamber and a bypass channel. The dust collection chamber is used to communicate with a cleaning device to collect dirt from the cleaning device. The bypass channel communicates with the dust collection chamber and has a self-cleaning interface. The self-cleaning interface is used to dock with the cleaning device to generate negative pressure in the dust collection chamber using the suction device of the cleaning device.

[0029] In some embodiments, the charging structure is located near the main interface.

[0030] In some embodiments, the base station further includes:

[0031] Base;

[0032] A connecting bracket, one end of which is detachably connected to the base;

[0033] The base station body is located above the base, and the other end of the connecting bracket is detachably connected to the base station body. The connecting bracket is configured to support the base station body.

[0034] In some embodiments, the base station body includes a main support frame, the inner side of which forms a dust collection chamber, the dust collection chamber having an installation port for inserting a dust bag into the dust collection chamber.

[0035] In some embodiments, at least a portion of the outer surface of the main support is configured as the exterior surface of the base station, and the main support is configured as a single piece.

[0036] In some embodiments, the base station body further includes a first decorative panel, which covers the main body support, and a bypass channel is provided between the first decorative panel and the main body support, and the dust collection chamber is connected to the bypass channel.

[0037] In some embodiments, the dust collection chamber and the bypass channel are arranged side by side, and the side wall of the dust collection chamber near the bypass channel is provided with an outlet communicating with the bypass channel.

[0038] In some embodiments, the base station further includes a second decorative panel that covers the mounting opening, and the dust collection chamber is defined between the second decorative panel and the main support.

[0039] In some embodiments, the charging structure includes a charging terminal. When the cleaning device is connected to the base station body, the charging terminal is plugged into the cleaning device and charges the cleaning device.

[0040] In some embodiments, the charging structure includes a charging pad, which makes electrical contact with the cleaning device when the cleaning device is connected to the base station body, and charges the cleaning device.

[0041] The cleaning system according to an embodiment of the present invention includes: a cleaning device and the aforementioned base station, wherein the cleaning device is detachably connected to the base station, and the cleaning device is capable of being charged with the charging structure.

[0042] In some embodiments, the cleaning device is configured to create negative pressure within the base station body to collect contaminants within the cleaning device. Attached Figure Description

[0043] Figure 1 This is a schematic diagram of a base station in an embodiment of the present invention, with the fixing component located in the disassembly position.

[0044] Figure 2 yes Figure 1 A magnified view of a portion of region A in the middle circle.

[0045] Figure 3 This is another schematic diagram of the base station in an embodiment of the present invention, with the fixing component located in the disassembly position.

[0046] Figure 4 yes Figure 3 A magnified view of a portion of region B in the middle circle.

[0047] Figure 5 This is a cross-sectional view of the base station in an embodiment of this utility model, with the fixing member located in a fixed position.

[0048] Figure 6 yes Figure 5 A magnified view of a portion of region C in the middle circle.

[0049] Figure 7 This is a schematic diagram of the base station structure in an embodiment of the present invention, with the fixing component located in a fixed position.

[0050] Figure 8 yes Figure 7 A magnified view of a portion of region D in the middle circle.

[0051] Figure 9 yes Figure 7 A magnified view of a portion of region E in the middle circle.

[0052] Figure 10 This is a structural schematic diagram of the assembly part of the base station in an embodiment of this utility model.

[0053] Figure 11 This is a schematic diagram of the cleaning system in an embodiment of this utility model.

[0054] Figure 12 This is a cross-sectional view of the cleaning system in an embodiment of this utility model.

[0055] Figure 13 This is an exploded schematic diagram of the base station in an embodiment of this utility model.

[0056] Figure 14 This is an exploded schematic diagram of the base station in an embodiment of this utility model.

[0057] Figure 15 This is an exploded schematic diagram of the base station in an embodiment of this utility model.

[0058] Reference numerals: Base station 100, base station body 10, assembly part 11, assembly cavity 110, fixing part 111, moving part 112, second arc-shaped surface 113, buckle 114, mounting hole 115, first boss 116, second boss 117, opening 118, first assembly groove 12, slot 13, wire clamping structure 14, main interface 15, second assembly groove 16, rotating shaft 17, first arc-shaped surface 18, charging structure 20, connecting wire 30, base 40, connecting bracket 50, main body bracket 60, bypass channel 601, self-cleaning interface 602, exterior surface 61, dust bag 62, first decorative panel 71, second decorative panel 72, cleaning equipment 200, dust cup assembly 210, dust collection chamber 211, return channel 201, suction device 220, air inlet 230, air inlet channel 231, cleaning system 1000. Detailed Implementation

[0059] The embodiments of this utility model are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain this utility model, and should not be construed as limiting this utility model.

[0060] Combination Figures 1 to 4According to an embodiment of the present invention, a base station 100 is used for detachably docking with a cleaning device 200, comprising: a base station body 10 and a charging structure 20. The charging structure 20 is disposed on the base station body 10 and is used to charge the cleaning device 200 when docking with the base station body 10. The charging structure 20 is detachably connected to the base station body 10. In this embodiment, when replacing the charging structure 20, the base station 100 can be detached from the base station body 10 without disassembling the base station body 10. This facilitates replacement of the charging structure 20 when it malfunctions, reducing the maintenance cost of the base station 100. Furthermore, the installation and disassembly steps of the charging structure 20 are simple, improving the user experience.

[0061] According to the embodiment of the present utility model, the base station 100 is detachably connected to the base station body 10 via the charging structure 20, which facilitates the disassembly and replacement of the charging structure 20 without disassembling the base station body 10 to replace the charging structure 20, thereby reducing the maintenance cost of the base station 100. At the same time, the installation and disassembly steps of the charging structure 20 are simple, improving the user experience.

[0062] In some embodiments, the base station body 10 further includes an assembly part 11, which is installed on the base station body 10. The charging structure 20 is detachably connected to the assembly part 11, thereby improving the ease of assembly and disassembly of the charging structure 20.

[0063] For example, when the charging structure 20 is connected to the assembly part 11 and the cleaning device 200 is docked with the base station body 10, the charging structure 20 connects to the cleaning device 200 and charges the cleaning device 200. When the charging structure 20 needs to be replaced, the charging structure 20 can be detached from the assembly part 11, avoiding the need to disassemble the base station body 10 to replace the charging structure 20, reducing the cost of maintaining the base station 100. At the same time, the detachable charging structure 20 simplifies the steps of installing and disassembling the charging structure 20, improving the user experience.

[0064] Combination Figures 1 to 8 In some embodiments, the assembly part 11 has a disassembly position and a fixed position. The charging structure 20 is farther away from the base station body 10 in the disassembly position than in the fixed position. In the fixed position, the charging structure 20 is stably connected to the base station body 10. In the disassembly position, the charging structure 20 is easy to disassemble and install.

[0065] For example, in a fixed position, the assembly part 11 is stably connected to the base station body 10, and the charging structure 20 is installed on the assembly part 11. When the cleaning device 200 is docked with the base station 100, the charging structure 20 can charge the cleaning device 200; in a disassembled position, the assembly part 11 can be moved forward (e.g., attached to the base station body 10). Figure 1The charging structure 20 can be moved away from the base station body 10 in the front and back directions, allowing for a larger space at the front of the base station body 10. This facilitates the installation and disassembly of the charging structure 20 by the user, improving the user experience.

[0066] Combination Figure 1 , Figure 2 , Figure 8 and Figure 10 In some embodiments, one end of the assembly part 11 is rotatably connected to the base station body 10, and the charging structure 20 is detachably connected to the other end of the assembly part 11.

[0067] For example, one end of the assembly part 11 may be provided with a rotating shaft 17, and the base station body 10 may be provided with a mounting groove (not shown in the figure) for mounting the rotating shaft 17. The rotating shaft 17 is rotatably mounted in the mounting groove. The assembly part 11 is rotatably connected to the base station body 10 through the rotating shaft 17, and the assembly part 11 can rotate between the disassembled position and the fixed position.

[0068] Among them, the assembly part 11 can move forward around the pivot 17 (e.g., attached). Figure 1 The assembly part 11 is rotated to the disassembly position (in the forward and backward direction). In the disassembly position, the other end of the assembly part 11 is located outside the base station body 10 and exposed to the external environment. The charging structure 20 can be removed from the other end of the assembly part 11 or installed inside the other end of the assembly part 11. Alternatively, the assembly part 11 can also be rotated backward around the pivot 17 to a fixed position. In the fixed position, the other end of the assembly part 11 is located inside the base station body 10, and at least a portion of the other end of the assembly part 11 is located inside the base station body 10, ensuring that the charging structure 20 is stably installed on the base station body 10 and preventing the charging structure 20 from falling off.

[0069] Optionally, the assembly part 11 can be slidably connected to the base station body 10. The base station body 10 may be provided with a groove. At least a part of the assembly part 11 is slidably disposed in the groove. When it is necessary to install and disassemble the charging structure 20, the assembly part 11 can be slid to the disassembly position so that the other end of the assembly part 11 is exposed to the external environment, so that the charging structure 20 can be disassembled and installed. The assembly part 11 can also be slid to a fixed position, with the other end of the assembly part 11 located inside the base station body 10. At least a part of the other end of the assembly part 11 is located inside the base station body 10, ensuring that the charging structure 20 is stably installed on the base station body 10.

[0070] Optionally, the assembly part 11 is detachably connected to the base station body 10. When the assembly part 11 is detached from the base station body 10, the other end of the assembly part 11 can be exposed to the external environment, which facilitates the installation and disassembly of the charging structure 20. When the assembly part 11 is connected to the base station body 10, at least a portion of the other end of the assembly part 11 is located inside the base station body 10, so that the charging structure 20 is connected to the base station body 10, thereby improving the stability of the connection between the charging structure 20 and the base station body 10.

[0071] Optionally, combined Figure 6 and Figure 8 The other end of the assembly part 11 may be provided with a movable part 112, and the movable part 112 may be located on the outer surface of the assembly part 11. The movable part 112 may be used to drive the assembly part 11 to move between the disassembly position and the fixed position, so that the user can move the assembly part 11 to install and detach the charging structure 20 from the base station body 10.

[0072] Combination Figures 1 to 4 In some embodiments, the assembly part 11 includes a fixing member 111, the fixing member 111 is provided with an assembly cavity 110, and the charging structure 20 is detachably disposed in the assembly cavity 110 to ensure that the charging structure 20 is stably connected to the fixing member 111.

[0073] Specifically, the fastener 111 is provided with an assembly cavity 110, which allows the user to quickly locate the installation position of the charging structure 20 through sight and touch. Each time the charging structure 20 is installed on the fastener 111, it can be stably installed in a fixed position on the fastener 111, avoiding misalignment of the charging structure 20 and ensuring that the charging structure 20 is positioned and installed in the assembly cavity 110, thereby improving the stability of the connection between the charging structure 20 and the fastener 111.

[0074] Optionally, the assembly cavity 110 may have arc-shaped sidewalls and a top wall. The arc-shaped sidewalls may shield the front and left and right sides of the charging structure 20 to reduce the interference of the external environment on the charging structure 20. The top wall may be provided with mounting holes 115. When the fastener 111 is connected to the base station body 10, the top of the charging structure 20 may pass through the mounting holes 115 and protrude upward from the fastener 111 to facilitate docking with the cleaning equipment 200.

[0075] Combination Figure 2 , Figure 8 and Figure 10 In some embodiments, the assembly cavity 110 has an opening 118 to facilitate the installation and disassembly of the charging structure 20; when the assembly part 11 is installed on the base station body 10, the opening 118 is covered by the base station body 10 to prevent the charging structure 20 from coming out of the assembly cavity 110 and to ensure that the charging structure 20 is stably connected to the assembly part 11.

[0076] In conjunction with the foregoing embodiments, the fastener 111 can be located at the other end of the assembly part 11. The assembly part 11 can have a fixed position and a disassembly position. In the disassembly position, the other end of the assembly part 11 is away from the base station body 10, and the assembly cavity 110 can be exposed to the external environment. The charging structure 20 can be installed in the assembly cavity 110 from the opening 118. The charging structure 20 can also be disassembled from the assembly cavity 110 from the opening 118, which facilitates the user's disassembly and assembly of the charging structure 20. In the fixed position, the assembly part 11 is installed on the base station body 10, and at least a part of the assembly cavity 110 is located inside the base station body 10. The base station body 10 covers the back of the opening 118 to prevent the charging structure 20 from detaching from the assembly cavity 110 from the opening 118, so that the charging structure 20 is stably installed on the assembly part 11.

[0077] Optionally, the assembly cavity 110 may have arc-shaped sidewalls and a top wall. The arc-shaped sidewalls may be provided with a first protrusion 116 and a second protrusion 117 that are adapted to the shape of the charging structure 20. The charging structure 20 can be installed into the assembly cavity 110 through the opening 118. The first protrusion 116 can abut against the upper part of the charging structure 20, and the second protrusion 117 can abut against the lower part of the charging structure 20. Under the combined action of the first protrusion 116 and the second protrusion 117, the charging structure 20 can be locked in the assembly cavity 110, restricting the movement of the charging structure 20 in the vertical direction. At the same time, the arc-shaped sidewalls and the top wall can restrict the movement of the charging structure 20 in the horizontal and vertical directions and the front and back directions, so that the charging structure 20 can be stably installed in the assembly cavity 110.

[0078] Combination Figures 3 to 6 In some embodiments, the base station body 10 is provided with a first assembly groove 12. When the assembly part 11 is connected to the base station body 10, at least a part of the fastener 111 is provided in the first assembly groove 12 to ensure that the charging structure 20 is fixed relative to the base station body 10.

[0079] For example, the charging structure 20 can be installed in the assembly cavity 110 of the fixing member 111. When the fixing member 111 is connected to the base station body 10, the fixing member 111 can block the front of the charging structure 20, and at least a part of the fixing member 111 can be embedded in the first assembly groove 12. That is, at least a part of the charging structure 20 can be embedded in the first assembly groove 12. Under the restriction of the fixing member 111 and the first assembly groove 12, the position of the charging structure 20 is fixed in the base station body 10, avoiding the charging structure 20 from falling off due to moving in all directions, and ensuring that the charging structure 20 is stably installed in the base station body 10.

[0080] Combination Figure 2 , Figure 4 and Figure 8In some embodiments, the base station body 10 has a first arc-shaped surface 18 and a second assembly groove 16, and the assembly part has a second arc-shaped surface 113. When the assembly part 11 is connected to the base station body 10, the assembly part 11 is embedded in the second assembly groove 16, which restricts the movement of the assembly part 11 in the vertical direction. The first arc-shaped surface 18 and the second arc-shaped surface 113 correspond in the up and down direction, which facilitates the installation of the cleaning equipment 200 on the base station body 10.

[0081] For example, the second mounting groove 16 can be set as an arc groove corresponding to the second arc surface 113, and the second mounting groove 16 can be set on the end face of the base station body 10 near the mounting part 11. When the mounting part 11 is connected to the base station body 10, the second arc surface 113 can be embedded in the second mounting groove 16 in the front-back direction. The second mounting groove 16 restricts the movement of the mounting part 11 in the up-down direction, further ensuring that the charging structure 20 is stably connected to the base station body 10.

[0082] When the assembly part 11 is connected to the base station body 10, the first arc-shaped surface 18 and the second arc-shaped surface 113 can correspond in the vertical direction. The first arc-shaped surface 18 and the second arc-shaped surface 113 can cooperate with the outer end face of the cleaning device 200, which can increase the contact area between the outer end face of the cleaning device 200 and the base station body 10. At the same time, the user can quickly find the installation position of the cleaning device 200 on the base station body 10 and reduce the collision between the cleaning device 200 and the base station body 10.

[0083] Combination Figures 1 to 4 In some embodiments, one of the assembly part 11 and the base station body 10 is provided with a buckle 114 and the other is provided with a slot 13. When the assembly part 11 is connected to the base station body 10, the buckle 114 is engaged in the slot 13 to prevent the charging structure 20 from falling off due to the assembly part 11 detaching from the base station body 10.

[0084] For example, the other end of the assembly part 11 may be provided with a buckle 114, and the base station body 10 may be provided with a slot 13. When the assembly part 11 is connected to the base station body 10, the buckle 114 can be in the front-back direction (e.g., attached). Figure 1 The front-to-back direction) is engaged in the slot 13, thereby restricting the assembly part 11 in the up-down and left-to-right directions (e.g., attached). Figure 1 The assembly part 11 can be moved in the up-down and left-right directions to ensure stable installation on the base station body 10. Of course, the assembly part 11 can also be provided with a slot 13, and the base station body 10 can be provided with a buckle 114. When the assembly part 11 is connected to the base station body 10, the buckle 114 can be locked in the slot 13, thereby restricting the movement of the assembly part 11 in the up-down and left-right directions, so that the assembly part 11 is stably connected to the base station body 10.

[0085] Combination Figures 7 to 9In some embodiments, the base station 10 includes a connecting line 30, which is connected to the charging structure 20. The connecting line 30 is used to transmit external current to the charging structure 20. The outer surface of the base station body 10 is provided with multiple wire-clamping structures 14 for clamping the connecting line 30, making the outer surface of the base station body 10 neater and more aesthetically pleasing.

[0086] For example, the connecting line 30 can be connected to an external power source, and the current generated by the external power source can be transmitted to the charging structure 20 through the connecting line 30. When the cleaning device 200 is connected to the base station body 10, the charging structure 20 can charge the cleaning device 200.

[0087] When the charging structure 20 is connected to the base station body 10, the connecting line 30 is located below the charging structure 20 and along the vertical direction (e.g., attached). Figure 7 The charging structure 20 extends vertically and is opposite to the front face of the base station body 10. The front face of the base station body 10 can be provided with multiple wire-clamping structures 14, which can include two, three, four, or even more. The multiple wire-clamping structures 14 can be distributed vertically. The connecting wire 30 can be clamped in the multiple wire-clamping structures 14, so that the connecting wire 30 is close to the front face of the base station body 10. The wire-clamping structures 14 can also guide the extension direction of the connecting wire 30, optimize the fixing and storage effect of the base station body 10 on the connecting wire 30, improve the cleanliness of the outer surface of the base station body 10, and at the same time prevent the charging structure 20 from falling off due to the shaking of the connecting wire 30. In addition, when the charging structure 20 is removed from the base station body 10, the connecting wire 30 can be detached from the wire-clamping structure 14 first, and then the charging structure 20 can be removed from the base station body 10, so that the charging structure 20 and the connecting wire 30 are detached from the base station body 10.

[0088] Combination Figures 5 to 8 ,as well as Figure 11 In some embodiments, the base station body 10 includes a main interface 15 for docking with the cleaning device 200, and a charging structure 20 is located near the main interface 15. When the cleaning device 200 docks with the main interface 15, the charging structure 20 is directly connected to the cleaning device 200, simplifying the operation steps of charging the cleaning device 200.

[0089] For example, the charging structure 20 can be located on the side of the main interface 15. The cleaning device 200 may include a dust cup assembly 210 and an air inlet 230. The dust cup assembly 210 can be used to dock with the main interface 15. The air inlet 230 is connected to the side of the dust cup assembly 210, and the air inlet 230 may be provided with a charging interface of the cleaning device 200 (not shown in the figure). The charging interface can be electrically connected to the charging structure 20. The dust cup assembly 210 is located along the vertical direction (e.g., as shown in the figure). Figure 3When the charging structure 20 (located near the main interface 15) is connected to the charging interface of the air inlet 230 in the vertical direction, it can directly connect to the charging interface of the air inlet 230 without any additional plugging action, thus improving the user experience.

[0090] In some embodiments, the charging structure 20 is configured to be electrically connected to the cleaning device 200 when the cleaning device 200 docks with the base station body 10, and to charge the cleaning device 200.

[0091] For example, in this embodiment of the invention, the charging structure 20 of the base station 100 can be wired. The charging structure 20 is used to transmit current to the cleaning device 200 for charging. The cleaning device 200 can have a charging interface corresponding to the charging structure 20, which is used to receive the current transmitted by the charging structure 20. The base station 100 also includes a connecting line 30, which can transmit external current to the charging structure 20, enabling the charging structure 20 to charge the cleaning device 200. Furthermore, when the cleaning device 200 is connected to the base station body 10, the charging structure 20 can be directly plugged into the charging interface, reducing the number of steps required to charge the cleaning device 200 and optimizing the user experience.

[0092] Combination Figure 12 In some embodiments, the base station body 10 includes a dust collection chamber 211 and a bypass channel 601. The dust collection chamber 211 is used to communicate with a cleaning device 200 to collect dirt within the cleaning device 200. The cleaning device 200 may have a main interface 15. A dust bag 62 communicating with the main interface 15 may be disposed in the dust collection chamber 211. When the main interface 15 is connected to the dust cup assembly 210, a negative pressure can be formed in the dust collection chamber 211 to collect dirt from the dust cup assembly 210 into the dust bag 62. The bypass channel 601 communicates with the dust collection chamber 211 and has a self-cleaning interface 602. The self-cleaning interface 602 is used to connect with the cleaning device 200 to generate negative pressure in the dust collection chamber 211 using the suction device of the cleaning device 200.

[0093] Specifically, after the cleaning device 200 is connected to the base station 100, the main interface 15 is connected to the dust discharge port of the dust cup assembly 210 of the cleaning device 200, the self-cleaning interface 602 is connected to the return flow channel 201 of the cleaning device 200, and the suction device 220 of the cleaning device 200 is connected to the return flow channel 201 to drive the airflow along the air inlet flow channel 231 → dust cup assembly 210 → dust collection chamber 211 → bypass flow channel 601 → return flow channel 201 → suction device 220 of the cleaning device 200.

[0094] In addition, when the cleaning equipment 200 is performing cleaning operations, the suction device 220 of the cleaning equipment 200 is connected to the dust cup assembly 210 to drive the airflow to flow along the air inlet channel 231 of the cleaning equipment 200 → dust cup assembly 210 → suction device 220.

[0095] The cleaning device 200 of this invention may include a suction device 220 and a switching device. The switching device controls the suction device 220 to connect to one of the dust cup assembly 210 (including a filter) and the return flow channel 201, allowing dirt in the cleaning device 200 to be discharged into the dust collection chamber 211, facilitating self-cleaning of the cleaning device 200. The base station 100 may not require a fan; the suction action of the cleaning device 200 will collect the dirt from the cleaning device 200 into the base station 100.

[0096] For example, the cleaning device 200 can be connected to the base station body 10 via the main interface 15, and the dust cup assembly 210 of the cleaning device 200 can be connected to the dust collection chamber 211. Under the action of the suction device 220 of the cleaning device 200, the suction device 220 can remove the airflow in the base station body 10, so that negative pressure is generated in the dust collection chamber 211. The cleaning device 200 can include an air inlet channel 231 and a return channel 201. External airflow can flow into the interior of the dust cup assembly 210 through the air inlet channel 231. Under the action of pressure difference, the dust discharge port of the dust cup assembly 210 opens, so that dust, debris, hair and other dirt in the dust cup assembly 210 are collected into the dust collection chamber 211, thereby realizing the self-cleaning of the cleaning device 200. The airflow inside the base station 100 flows back to the suction device 220 through the bypass channel 601 and the return channel 201, and is discharged outside the cleaning device 200 through the suction device 220. At this time, the airflow direction between the cleaning device 200 and the base station 100 is: air inlet channel 231 of the cleaning device 200 → dust cup assembly 210 → dust collection chamber 211 → bypass channel 601 → return channel 201 → suction device 220.

[0097] A base station 100 according to another embodiment of the present invention is used for detachably docking with a cleaning device 200. It includes a base station body 10 and a charging structure 20. The charging structure 20 is disposed on the base station body 10 and is used to charge the cleaning device 200 when docking with the base station body 10. The charging structure 20 is fixedly disposed on the base station body 10. In this embodiment, the base station 100 is fixedly disposed on the base station body 10 by the charging structure 20, preventing the charging structure 20 from detaching from the base station body 10 when it is subjected to a collision. This allows the cleaning device 200 to directly connect to the charging structure 20 when docking with the base station body 10, improving the stability of the connection between the cleaning device 200 and the charging structure 20, reducing the number of charging steps for the cleaning device 200, and improving the user experience.

[0098] According to another embodiment of the present invention, the base station 100 is fixedly installed on the base station body 10 by a charging structure 20, so that the charging structure 20 is stably connected to the base station body 10, reducing the operation steps of charging the cleaning equipment 200 and improving the user experience.

[0099] Combination Figure 12 In some embodiments, the base station body 10 includes a dust collection chamber 211 and a bypass channel 601. The dust collection chamber 211 is used to communicate with a cleaning device 200 to collect dirt from the cleaning device 200. The cleaning device 200 may have a main interface 15. A dust bag 62 communicating with the main interface 15 may be disposed in the dust collection chamber 211. When the main interface 15 is connected to the dust cup, a negative pressure can be formed in the dust collection chamber 211 to collect dirt from the dust cup into the dust bag 62. The bypass channel 601 is connected to the dust collection chamber 211 and has a self-cleaning interface 602. The self-cleaning interface 602 is used to connect with the cleaning device 200 to generate negative pressure in the dust collection chamber 211 using the suction device of the cleaning device 200.

[0100] Specifically, after the cleaning device 200 is connected to the base station 100, the main interface 15 is connected to the dust discharge port of the dust cup assembly 210 of the cleaning device 200, the self-cleaning interface 602 is connected to the return flow channel 201 of the cleaning device 200, and the suction device 220 of the cleaning device 200 is connected to the return flow channel 201 to drive the airflow along the air inlet flow channel 231 → dust cup assembly 210 → dust collection chamber 211 → bypass flow channel 601 → return flow channel 201 → suction device 220 of the cleaning device 200.

[0101] In addition, when the cleaning equipment 200 is performing cleaning operations, the suction device of the cleaning equipment 200 is connected to the dust cup assembly 210 to drive the airflow to flow along the air inlet channel 231 of the cleaning equipment 200 → dust cup assembly 210 → suction device 220.

[0102] The cleaning device 200 of this invention may include a suction device 220 and a switching device. The switching device controls the suction device 220 to connect to one of the dust cup assembly 210 (including a filter) and the return flow channel 201, allowing dirt in the cleaning device 200 to be discharged into the dust collection chamber 211, facilitating self-cleaning of the cleaning device 200. The base station 100 may not require a fan; the suction action of the cleaning device 200 will collect the dirt from the cleaning device 200 into the base station 100.

[0103] For example, the cleaning device 200 can be connected to the base station body 10 via the main interface 15, and the dust cup assembly 210 of the cleaning device 200 can be connected to the dust collection chamber 211. Under the action of the suction device 220 of the cleaning device 200, the suction device 220 can remove the airflow in the base station body 10, so that negative pressure is generated in the dust collection chamber 211. The cleaning device 200 can include an air inlet channel 231 and a return channel 201. External airflow can flow into the interior of the dust cup assembly 210 through the air inlet channel 231. Under the action of pressure difference, the dust discharge port of the dust cup assembly 210 opens, so that dust, debris, hair and other dirt in the dust cup assembly 210 are collected into the dust collection chamber 211, thereby realizing the self-cleaning of the cleaning device 200. The airflow inside the base station 100 flows back to the suction device through the bypass channel 601 and the return channel 201, and is discharged outside the cleaning device 200 through the suction device 220. At this time, the airflow direction between the cleaning device 200 and the base station 100 is: air inlet channel 231 of the cleaning device 200 → dust cup assembly 210 → dust collection chamber 211 → bypass channel 601 → return channel 201 → suction device 220.

[0104] Combination Figure 11 and Figure 15 In some embodiments, the charging structure 20 is located near the main interface 15. When the cleaning device 200 is connected to the main interface 15, the charging structure 20 is directly connected to the cleaning device 200, simplifying the charging operation steps of the cleaning device 200.

[0105] For example, the charging structure 20 can be located on the side of the main interface 15. The cleaning device 200 can include a dust cup and an air inlet 230. The dust cup can be used to dock with the main interface 15, and the air inlet 230 is connected to the side of the dust cup assembly 210. The air inlet 230 can be provided with a charging interface of the cleaning device 200 (not shown in the figure), and the charging interface can be electrically connected to the charging structure 20. The dust cup assembly 210 is located along the vertical direction (e.g., as shown in the figure). Figure 15 When the charging structure 20 (located near the main interface 15) is connected to the charging interface of the air inlet 230 in the vertical direction, it can directly connect to the charging interface of the air inlet 230 without any additional plugging action, thus improving the user experience.

[0106] Combination Figure 13In some embodiments, the base station 100 further includes a base 40 and a connecting bracket 50, one end of which is detachably connected to the base 40. The base station body 10 is positioned above the base 40, and the other end of the connecting bracket 50 is detachably connected to the base station body 10. The connecting bracket 50 is configured to support the base station body 10. In other words, the base station body 10, the base 40, and the connecting bracket 50 are all detachably connected, which further reduces the packaging size of the base station 100, reduces the space required for transportation, and also facilitates user storage.

[0107] For example, the base station body 10, the connecting bracket 50, and the base 40 can be arranged sequentially in the vertical direction. By setting the base station body 10, the connecting bracket 50, and the base 40 as a three-section detachable structure, the packaging size of the base station 100 in the height direction and the space occupied during transportation and storage can be reduced. In addition, in order to improve the stability of the base station 100 and prevent the base station 100 from tipping over, the base 40 usually occupies a large area. The base 40 and the connecting bracket 50 are detachable, which can reduce the packaging size of the base station 100 in the length and width directions, improve the flexibility of packaging design, reduce the space required for placement during transportation, and also make it convenient for users to store.

[0108] The base station body 10 and the connecting bracket 50 can be detachably connected by a snap-fit, and the connecting bracket 50 and the base 40 can also be detachably connected by a snap-fit.

[0109] Combination Figure 14 In some embodiments, the base station body 10 includes a main support 60, the inner side of which forms a dust collection chamber 211, the dust collection chamber 211 having an installation port for inserting a dust bag 62 into the dust collection chamber 211. Optionally, at least a portion of the outer surface of the main support 60 forms the outer surface 61 of the base station 100, and the main support 60 is configured to be integrally formed.

[0110] For example, a dust collection chamber 211 is formed on the inner side of the main support 60, and the dust collection chamber 211 may have an installation port through which the dust bag 62 can be inserted. The installation port facilitates the replacement or cleaning of the dust bag 62. At least a portion of the outer surface of the main support 60 is formed as the outer surface 61 of the base station 100. As shown in the figure, the outer surface 61 is the outer surface of the base station 100 that is directly exposed to the outside and can be observed by the user. In other words, at least a portion of the main support 60 can serve as the outer shell of the base station 100, and the dust bag 62 is directly inserted into the inner side of the main support 60. Compared with related technologies, which require the design of a structure independent of the shell structure to install the dust bag 62, this reduces the number of components of the base station 100, optimizes the production and installation process, improves production efficiency, and reduces the production cost of the base station 100.

[0111] The main support 60 is configured to be integrally molded. For example, the main support 60 can be integrally molded by injection molding, which can improve the structural strength of the main support 60, reduce the number of molds required for the base station 100, improve production and installation efficiency, and further reduce the production cost of the base station 100.

[0112] In addition, at least a portion of the outer surface of the main support 60 is configured as the appearance surface 61 of the base station 100. For example, the front outer surface of the main support 60 can be configured as the appearance surface 61 of the base station 100; or the front and rear outer surfaces of the main support 60 can be configured as the appearance surface 61 of the base station 100; or the front, rear, and left outer surfaces of the main support 60 are configured as the appearance surface 61 of the base station 100. The appearance surface 61 constructed by the main support 60 in this application may also have other arrangements. This application will not list them all. Based on the above description, those skilled in the art can easily conceive of other arrangements of the appearance surface 61.

[0113] For example, the cleaning device 200 may have a working mode and a self-cleaning mode. In the working mode, the suction device 220 of the cleaning device 200 is connected to the dust cup assembly 210. Dust, hair, debris and other dirt on the working surface are sucked into the dust cup assembly 210 through the air inlet channel 231. The dust cup assembly 210 is in a closed state and filters the airflow. The clean airflow filtered by the dust cup assembly 210 is discharged from the suction device 220 to the outside of the cleaning device 200. After the cleaning equipment 200 completes the cleaning work, it can be connected to the base station 100. In the self-cleaning mode, the suction device 220 of the cleaning equipment 200 is connected to the bypass channel 601, the dust discharge port of the dust cup assembly 210 is opened and connected to the dust bag 62 of the base station 100, and the base station 100 has a bypass channel 601. The cleaning equipment 200 has a return channel 201. The bypass channel 601 is connected to the return channel 201. Under the action of the suction device 220, a negative pressure is generated in the dust bag 62 of the base station 100, so that the dust, debris, hair and other dirt in the dust cup assembly 210 are collected in the dust bag 62. The airflow in the base station 100 flows back to the suction device 220 through the bypass channel 601 and the return channel 201, and is discharged to the outside of the cleaning equipment 200 through the suction device 220.

[0114] In some embodiments, when the cleaning device 200 is connected to the base station body 10, the charging structure 20 charges the cleaning device 200. The specific form of the charging structure 20 includes, but is not limited to, the following implementation methods.

[0115] Combination Figure 3 and Figure 15In some embodiments, the base station body 10 further includes a first decorative panel 71, which covers the main support 60. A bypass channel 601 is provided between the first decorative panel 71 and the main support 60, and the dust collection chamber 211 communicates with the bypass channel 601. By directly using the first decorative panel 71 and the main support 60 to define the bypass channel 601, no other structures are required, which simplifies the structure of the base station 100, reduces the number of components in the base station 100, improves the production and installation efficiency of the base station 100, and reduces the production cost of the base station 100.

[0116] Specifically, by defining a bypass channel 601 between the main support 60 and the first decorative panel 71, and by connecting the bypass channel 601 to the dust collection chamber 211, a motor can be omitted from the base station 100, and the suction device 220 of the cleaning equipment 200 can be used to create negative pressure in the base station 100. Figure 7 For example, the cleaning device 200 includes a suction device 220 and a return flow channel 201. The base station 100 does not need to be equipped with a fan. After the cleaning device 200 is connected to the base station 100, the suction device 220 of the cleaning device 200 can generate negative pressure inside the base station 100. The negative pressure inside the base station 100 can clean and collect dirt from the dust cup assembly 210 of the cleaning device 200, realizing the self-cleaning of the cleaning device 200. After the cleaning device 200 is connected to the base station 100, the suction device 220 works, generating negative pressure inside the base station 100. This causes dust, debris, hair, and other dirt in the dust cup assembly 210 to be collected into the dust bag 62 of the base station 100. The airflow from the dust bag 62 flows back to the return flow channel 201 of the cleaning device 200 through the bypass flow channel 601 and is discharged from the suction device 220 to the outside of the cleaning device 200, simplifying the structure of the base station 100 and reducing the noise of the base station 100 during operation. When the base station 100 performs self-cleaning on the cleaning equipment 200, the dust collection chamber 211 is connected to the bypass channel 601, which facilitates the airflow of the dust bag 62 to return to the cleaning equipment 200 through the bypass channel 601.

[0117] The first decorative panel 71 is detachably connected to the main support 60, which facilitates the cleaning and maintenance of the bypass channel 601 in the future.

[0118] Combination Figure 15 In some embodiments, the dust collection chamber 211 and the bypass channel are arranged side by side, and the side wall of the dust collection chamber 211 near the bypass channel is provided with an outlet connecting to the bypass channel. Specifically, the outlet is opened on the side wall of the dust collection chamber 211 to facilitate communication between the dust collection chamber 211 and the bypass channel 601, thereby facilitating fluid communication between the dust bag 62 and the bypass channel 601, optimizing the airflow path within the base station 100, and avoiding the need for complex channel structures within the base station 100.

[0119] Combination Figure 7 and Figure 14 In some embodiments, the base station 100 further includes a second decorative panel 72, which covers the mounting opening and defines a dust collection chamber 211 between the second decorative panel 72 and the main support 60. Specifically, by providing a first decorative panel 71, a main support 60, and a second decorative panel 72, the base station 100 requires only three components to form the dust collection chamber 211 and the bypass flow channel 601 within the base station 100, which simplifies the structure of the base station 100 and reduces the number of components.

[0120] Furthermore, the mounting port is located on the side of the dust collection chamber 211 opposite to the bypass channel 601. The dust bag 62 can be inserted into the dust collection chamber 211 through the mounting port, which facilitates the replacement or cleaning of the dust bag 62. Specifically, a bypass channel 601 is provided between the first decorative plate 71 and the main support 60, and the second decorative plate 72 covers the mounting port of the dust collection chamber 211. The first decorative plate 71 and the second decorative plate 72 can be connected to opposite sides of the main support 60, making the structure of the base station 100 more symmetrical. Only three components are needed to construct the dust collection chamber 211 and the bypass channel 601 within the base station 100, simplifying its structure. The dust bag 62 can be made of a filter material that allows airflow. After flowing out of the dust bag 62, the airflow enters the bypass channel 601 and then flows back to the cleaning device 200, and is discharged from the suction device 230 of the cleaning device 200 to the outside of the cleaning device 200.

[0121] In some embodiments of this utility model, the first decorative panel 71 is configured as a single piece. For example, the first decorative panel 71 can be integrally formed by injection molding, which can improve the structural strength of the first decorative panel 71, reduce the number of molds required for the base station 100, improve production and installation efficiency, and further reduce the production cost of the base station 100.

[0122] Implementation method one, combined with Figures 1 to 6 The charging structure 20 includes a charging terminal. When the cleaning device 200 is connected to the base station body 10, the charging terminal is inserted into the cleaning device 200 and charges the cleaning device 200. The cleaning device 200 may have a charging port (not shown in the figure) corresponding to the charging terminal. When the cleaning device 200 is connected to the base station body 10, the charging terminal is inserted into the charging port, which improves the reliability of the connection between the cleaning device 200 and the charging terminal and prevents the charging terminal from coming off due to shaking of the cleaning device 200 and the base station body 10.

[0123] In the second embodiment, the charging structure 20 includes a charging plate. When the cleaning device 200 is connected to the base station body 10, the charging plate makes electrical contact with the cleaning device 200 and charges the cleaning device 200. The cleaning device 200 may have charging contacts corresponding to the charging plate. When the cleaning device 200 is connected to the base station body 10, the charging plate makes electrical contact with the charging contacts. The charging structure 20 does not need to charge the cleaning device 200 through a connecting cable, which simplifies the connection between the charging structure 20 and the cleaning device 200 and improves the neatness of the appearance of the base station body 10.

[0124] Combination Figures 1 to 11 The cleaning system 1000 according to an embodiment of the present utility model includes: a cleaning device 200 and the aforementioned base station 100. The cleaning device 200 is detachably connected to the base station 100, and the cleaning device 200 can be charged with the charging structure 20.

[0125] Specifically, when the cleaning device 200 is connected to the base station 100, the charging structure 20 on the base station 100 is connected to the cleaning device 200 and can charge the cleaning device 200; when the cleaning device 200 is disconnected from the base station 100, the charging structure 20 is separated from the cleaning device 200 and can be detached from the base station body 10. When replacing the charging structure 20, it is not necessary to disassemble the base station body 10 to detach the charging structure 20, thereby reducing the maintenance cost of the base station 100. Moreover, the installation and disassembly steps of the charging structure 20 are simple, improving the user experience.

[0126] In some embodiments, the cleaning device 200 is configured to generate negative pressure within the base station body 10 to collect dirt within the cleaning device 200.

[0127] For example, the cleaning device 200 may include a dust cup assembly 210, a suction device 220, and an air duct switching assembly (not shown in the figures). The dust cup assembly 210 may interface with the base station 100. The suction device 220 may be configured to create negative pressure inside the dust cup assembly 210 and inside the base station body 10. The air duct switching assembly may allow the suction device 220 to selectively connect to either the dust cup assembly 210 or the base station body 10. After the cleaning device 200 is detached from the base station 100, it can suck up external air and impurities. When the cleaning device 200 is performing suction, the suction device 220 may connect to the dust cup assembly 210 and remove the air inside the dust cup assembly 210, thereby closing the dust discharge port of the dust cup assembly 210 and storing impurities inside the dust cup assembly 210.

[0128] When the cleaning equipment 200 is connected to the base station 100, the air duct switching component can connect the suction device 220 to the inside of the base station body 10. The cleaning equipment 200 can operate the suction device 220, which can remove the air inside the base station body 10, creating a negative pressure inside the base station body 10 relative to the inside of the dust cup assembly 210. The pressure inside the dust cup assembly 210 is greater than the pressure inside the base station body 10. The dust discharge port of the dust cup assembly 210 opens under the action of air pressure, and the dust and impurities inside the dust cup assembly 210 can be discharged into the base station body 10, thus cleaning the dust cup assembly 210.

[0129] The specific structure of the base station 100 of the cleaning system 1000 in this embodiment of the present invention refers to the above embodiment. Since the base station 100 adopts the technical solution of the above embodiment, it has at least the beneficial effects brought by the technical solution of the above embodiment, which will not be described in detail here.

[0130] The base station 100 and the cleaning system 1000 of this utility model are described below with reference to the accompanying drawings.

[0131] According to an embodiment of the present invention, a base station 100 is used for detachably docking with a cleaning device 200, comprising: a base station body 10 and a charging structure 20. The charging structure 20 is disposed on the base station body 10 and is used to charge the cleaning device 200 when docking with the base station body 10. The charging structure 20 is detachably connected to the base station body 10, eliminating the need to disassemble the base station body 10 to replace the charging structure 20, thereby reducing the maintenance cost of the base station 100. Furthermore, the installation and disassembly steps of the charging structure 20 are simple, improving the user experience.

[0132] Among them, combined Figures 1 to 10 The base station body 10 is provided with an assembly part 11, which includes a fixing member 111. The fixing member 111 has an assembly cavity 110 for mounting the charging structure 20. The arc-shaped sidewall of the assembly cavity 110 has a first protrusion 116 and a second protrusion 117. The top wall of the assembly cavity 110 has a mounting hole 115. When the charging structure 20 is installed in the assembly cavity 110, the top of the charging structure 20 can first pass through the mounting hole 115, and then the charging structure 20 is locked between the first protrusion 116 and the second protrusion 117, restricting the movement of the charging structure 20 in all directions, thereby ensuring that the charging structure 20 is stably connected to the fixing member 111. The top of the charging structure 20 protrudes upward from the assembly part 11 to facilitate docking between the charging structure 20 and the cleaning equipment 200. The lower end of the charging structure 20 is connected to a connecting line 30, which is used to transmit external current to the charging structure 20 so that the charging structure 20 charges the cleaning equipment 200.

[0133] Furthermore, one end of the assembly part 11 is provided with a rotating shaft 17, and the other end of the assembly part 11 is provided with a fixing member 111. One end of the assembly part 11 is rotatably connected to the base station body 10 through the rotating shaft 17. The assembly part 11 has a disassembly position and a fixed position, and the assembly part 11 can rotate between the disassembly position and the fixed position. In the disassembly position, the charging structure 20 can be installed and detached from the assembly cavity 110. The base station body 10 is provided with a first assembly groove 12. In the fixed position, at least a portion of the fixing member 111 is embedded in the first assembly groove 12, and at least a portion of the charging structure 20 is located in the first assembly groove 12. The fixing member 111 and the first assembly groove 12 together restrict the movement of the charging structure 20 in the four directions, so that the position of the charging structure 20 relative to the base station body 10 is fixed.

[0134] In conjunction with the foregoing, the other end of the assembly part 11 is provided with a buckle 114, and the base station body 10 is provided with a slot 13. The buckle 114 is engaged in the slot 13 at a fixed position, so that the assembly part 11 is stably connected to the base station body 10. At least a part of the assembly part 11 is provided with a second arc-shaped surface 113, and the base station body 10 is provided with a corresponding second assembly groove 16. The second arc-shaped surface 113 is embedded in the second assembly groove 16 at a fixed position, restricting the movement of the assembly part 11 in the vertical direction.

[0135] Combination Figures 5 to 9 ,as well as Figure 11 The cleaning device 200 has a charging interface corresponding to the charging structure 20. The charging structure 20 is located near the main interface 15 of the base station body 10. When the cleaning device 200 is connected to the main interface 15 on the base station body 10, the dust cup assembly 210 is connected to the main interface 15. At the same time, the charging interface is directly plugged into the charging structure 20. After the connecting cable 30 is connected to an external power source, the cleaning device 200 can be charged. There is no need to plug the charging structure 20 into the charging interface separately, which reduces the operation steps of charging the cleaning device 200 and improves the user experience.

[0136] In the description of this utility model, it should be understood that the terms "center", "longitudinal", "transverse", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc., indicating the orientation or positional relationship are based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing this utility model and simplifying the description, and are not intended to indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model.

[0137] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of that feature. In the description of this utility model, "a plurality of" means at least two, such as two, three, etc., unless otherwise explicitly specified.

[0138] In this utility model, unless otherwise explicitly specified and limited, the terms "installation," "connection," "joining," and "fixing," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components, unless otherwise explicitly limited. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.

[0139] In this utility model, unless otherwise explicitly specified and limited, "above" or "below" the second feature can mean that the first feature is in direct contact with the second feature, or that the first feature is in indirect contact with the second feature through an intermediate medium. Furthermore, "above," "on top of," and "over" the second feature can mean that the first feature is directly above or diagonally above the second feature, or simply that the first feature is at a higher horizontal level than the second feature. "Below," "below," and "under" the second feature can mean that the first feature is directly below or diagonally below the second feature, or simply that the first feature is at a lower horizontal level than the second feature.

[0140] In the description of this specification, the references to terms such as "one embodiment," "some embodiments," "example," "specific example," or "some examples," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples. Moreover, without contradiction, those skilled in the art can combine and integrate the different embodiments or examples described in this specification, as well as the features of different embodiments or examples.

[0141] Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention. Those skilled in the art can make changes, modifications, substitutions and variations to the above embodiments within the scope of the present invention.

Claims

1. A base station (100) for detachably docking with cleaning equipment (200), characterized in that, include: Base station main body (10); A charging structure (20) is provided on the base station body (10). The charging structure (20) is used to charge the cleaning equipment (200) when the cleaning equipment (200) docks with the base station body (10). The charging structure (20) is detachably connected to the base station body (10).

2. The base station (100) according to claim 1, characterized in that, The base station (100) further includes an assembly part (11), which is installed on the base station body (10), and the charging structure (20) is detachably connected to the assembly part (11).

3. The base station (100) according to claim 2, characterized in that, The assembly part (11) has a disassembly position and a fixed position, and the charging structure (20) is further away from the base station body (10) in the disassembly position than in the fixed position.

4. The base station (100) according to claim 3, characterized in that, One end of the assembly part (11) is rotatably connected to the base station body (10), and the charging structure (20) is detachably connected to the other end of the assembly part (11); And / or, the assembly part (11) is slidably connected to the base station body (10); And / or, the assembly part (11) is detachably connected to the base station body (10).

5. The base station (100) according to claim 2, characterized in that, The assembly part (11) includes a fastener (111) having an assembly cavity (110), and the charging structure (20) is detachably disposed in the assembly cavity (110).

6. The base station (100) according to claim 5, characterized in that, The assembly cavity (110) has an opening (118), and when the assembly part (11) is installed on the base station body (10), the opening (118) is covered by the base station body (10); And / or, the base station body (10) is provided with a first assembly groove (12), and when the assembly part (11) is connected to the base station body (10), at least a portion of the fastener (111) is provided in the first assembly groove (12).

7. The base station (100) according to claim 2, characterized in that, The base station body (10) has a first arc-shaped surface (18) and a second assembly groove (16), and the assembly part (11) has a second arc-shaped surface (113). When the assembly part (11) is connected to the base station body (10), the assembly part (11) is embedded in the second assembly groove (16), and the first arc-shaped surface (18) and the second arc-shaped surface (113) correspond to each other in the vertical direction.

8. The base station (100) according to claim 2, characterized in that, One of the assembly part (11) and the base station body (10) is provided with a buckle (114) and the other is provided with a slot (13). When the assembly part (11) is connected to the base station body (10), the buckle (114) is engaged in the slot (13).

9. The base station (100) according to claim 1, characterized in that, The base station (100) also includes a connecting line (30), which connects to the charging structure (20). The outer surface of the base station body (10) is provided with multiple wire-clamping structures (14) for clamping the connecting line (30).

10. The base station (100) according to any one of claims 1-8, characterized in that, The base station body (10) includes a main interface (15) for docking with the cleaning equipment (200), and the charging structure (20) is located near the main interface (15).

11. The base station (100) according to claim 1, characterized in that, The charging structure (20) is configured to be electrically connected to the cleaning device (200) when the cleaning device (200) docks with the base station body (10), and to charge the cleaning device (200).

12. The base station (100) according to claim 1, characterized in that, The base station body (10) includes a dust collection chamber (211) and a bypass channel (601). The dust collection chamber (211) is used to communicate with a cleaning device (200) to collect dirt in the cleaning device (200). The bypass channel (601) is connected to the dust collection chamber (211) and has a self-cleaning interface (602). The self-cleaning interface (602) is used to connect with the cleaning device (200) to generate negative pressure in the dust collection chamber (211) using the suction device (220) of the cleaning device (200).

13. A base station (100) for detachably docking with cleaning equipment (200), characterized in that, include: Base station main body (10); A charging structure (20) is provided on the base station body (10). The charging structure (20) is used to charge the cleaning equipment (200) when the cleaning equipment (200) docks with the base station body (10). The charging structure (20) is fixedly installed on the base station body (10).

14. The base station (100) according to claim 13, characterized in that, The base station body (10) includes a dust collection chamber (211) and a bypass channel (601). The dust collection chamber (211) is used to communicate with a cleaning device (200) to collect dirt in the cleaning device (200). The bypass channel (601) is connected to the dust collection chamber (211) and has a self-cleaning interface (602). The self-cleaning interface (602) is used to connect with the cleaning device (200) to generate negative pressure in the dust collection chamber (211) using the suction device (220) of the cleaning device (200).

15. The base station (100) according to claim 13, characterized in that, The base station (100) also includes: Base (40); A connecting bracket (50), one end of which is detachably connected to the base (40); The base station body (10) is located above the base (40), and the other end of the connecting bracket (50) is detachably connected to the base station body (10). The connecting bracket (50) is configured to support the base station body (10).

16. The base station (100) according to claim 13, characterized in that, The base station body (10) includes a main support (60), and a dust collection chamber (211) is formed on the inner side of the main support (60). The dust collection chamber (211) has an installation port for inserting a dust bag (62) into the dust collection chamber (211).

17. The base station (100) according to claim 16, characterized in that, At least a portion of the outer surface of the main support (60) forms the outer surface (61) of the base station (100), and the main support (60) is configured as an integral piece.

18. The base station (100) according to claim 16, characterized in that, The base station body (10) also includes a first decorative panel (71), which covers the main support (60). A bypass channel (601) is provided between the first decorative panel (71) and the main support (60), and the dust collection chamber (211) is connected to the bypass channel (601).

19. The base station (100) according to claim 18, characterized in that, The dust collection chamber (211) and the bypass channel (601) are arranged side by side, and the side wall of the dust collection chamber (211) near the bypass channel (601) is provided with an outlet that connects to the bypass channel (601).

20. The base station (100) according to claim 16, characterized in that, The base station also includes a second decorative panel (72), which covers the mounting opening and defines the dust collection chamber (211) between the second decorative panel (72) and the main support (60).

21. The base station according to claim 13, characterized in that, The charging structure (20) includes a charging terminal. When the cleaning device (200) is connected to the base station body (10), the charging terminal is plugged into the cleaning device (200) and charges the cleaning device (200). And / or, the charging structure (20) includes a charging plate, and when the cleaning device (200) docks with the base station body (10), the charging plate makes electrical contact with the cleaning device (200) and charges the cleaning device (200).

22. A cleaning system (1000), characterized in that, include: The cleaning device (200) and the base station (100) of any one of claims 1-21, wherein the cleaning device (200) is detachably connected to the base station (100) and the cleaning device (200) is chargeable to the charging structure (20).

23. The cleaning system (1000) according to claim 22, characterized in that, The cleaning device (200) is configured to generate negative pressure within the base station body (10) to collect dirt within the cleaning device (200).