Cleaning base station and cleaning system
By arranging functional modules on different bases in a clean base station, the problem of low space utilization caused by disordered stacking of functional modules in the prior art is solved, achieving higher space utilization and flexible functional assembly.
Patent Information
- Authority / Receiving Office
- WO · WO
- Patent Type
- Applications
- Current Assignee / Owner
- YUNJING INTELLIGENCE (SHENZHEN) CO LTD
- Filing Date
- 2025-12-17
- Publication Date
- 2026-06-25
AI Technical Summary
The existing clean base station functional modules are stacked in a disorderly manner, resulting in low space utilization and failing to meet the different functional needs of users.
The functional modules of the clean base station are arranged in zones on different bases. The second base is detachably installed on top of the first base, so as to achieve an orderly distribution of functional modules, reduce space occupation, and meet different functional requirements.
It improves the space utilization rate inside the clean base station, and enables flexible assembly and disassembly of functional modules to meet the diverse needs of users.
Smart Images

Figure CN2025143153_25062026_PF_FP_ABST
Abstract
Description
Clean base stations and cleaning systems
[0001] Cross-reference to related applications
[0002] This disclosure claims priority to Chinese Patent Application No. 202423197650.8, filed on December 20, 2024, entitled "Clean Base Station and Clean System", the entire contents of which are incorporated herein by reference. Technical Field
[0003] This disclosure relates to the field of cleaning equipment, and more particularly to a cleaning base station and a cleaning system. Background Technology
[0004] In recent years, cleaning equipment has become increasingly popular due to its high level of intelligence, bringing great convenience to people's lives. Cleaning equipment is equipped with a base station, which allows the equipment to dock and perform functions such as mop cleaning, charging, and dust collection. Currently, most base stations on the market simply stack different functions within the same casing, resulting in disordered stacking and low space utilization.
[0005] Utility Model Content
[0006] This disclosure aims to at least solve one of the technical problems existing in the prior art. In view of this, it is necessary to provide a clean base station and a clean system. The functional modules of the clean base station are arranged in an orderly and partitioned manner, and its height occupies less space, which can save space and improve the space utilization rate inside the base station.
[0007] Embodiments of this disclosure provide a cleaning base station, which is used in conjunction with cleaning equipment for at least maintaining the cleaning equipment. The cleaning base station includes a first base assembly and a second base assembly. The first base assembly includes a first base and functional modules connected to the first base. The first base has a first receiving cavity for accommodating and supporting the cleaning equipment. One side of the first receiving cavity has an opening for the cleaning equipment to enter and exit the first receiving cavity. The functional modules include at least one of a cleaning module, a drying module, a charging module, a control module, a heating module, and a liquid circuit module. The second base assembly is detachably mounted above the first base assembly. The second base assembly includes a second base and a dust collection module connected to the second base. The second base is connected to the first base, and the dust collection module communicates with a dust collection port provided on the first base. The dust collection port communicates with the dust box of the cleaning equipment.
[0008] In one or more of the above optional embodiments, the first base is provided with the dust collection port and a first air duct communicating with the dust collection port; the dust collection module includes a dust collection housing and a dust collection power unit, the dust collection housing is connected to a second air duct, the second air duct is connected to the first air duct, and the dust collection power unit is connected to the dust collection housing; wherein, when the dust collection power unit is working, the garbage in the dust box of the cleaning equipment enters the dust collection housing in sequence through the dust collection port, the first air duct, and the second air duct.
[0009] In one or more of the above optional embodiments, a second receiving cavity is formed between the second base and the first base, the second receiving cavity is located above the first receiving cavity, and at least some of the functional modules are disposed in the second receiving cavity.
[0010] In one or more of the above optional embodiments, a third receiving cavity is provided above the second receiving cavity, and at least part of the dust collection module is located in the third receiving cavity.
[0011] In one or more of the above optional embodiments, the second base assembly further includes a second drying element disposed in the third receiving cavity, the second drying element being connected to the dust collection receiving element through a third air duct.
[0012] In one or more of the above optional embodiments, the clean base station further includes a second front cover and an upper cover, the upper cover being disposed above the second base, and the second front cover being connected to the upper cover.
[0013] In one or more of the above optional embodiments, the functional module includes a control module, and the control module includes a circuit board disposed in the second receiving cavity;
[0014] A button cover is movably connected to the second front cover, and the button cover is electrically connected to the circuit board.
[0015] In one or more of the above optional embodiments, the circuit board is provided with a button, the button cover is connected to the button, and a flexible member is provided between the two, with a movable space between the button cover and the flexible member.
[0016] In one or more of the above optional embodiments, the functional module includes a fluid circuit module, the fluid circuit module includes at least one of a maintenance fluid bottle and a cleaning fluid bottle disposed in the second receiving cavity, and the first base also includes at least one of a first removal hole and a second removal hole communicating with the second receiving cavity, wherein the first removal hole is used for the user to remove the maintenance fluid bottle, and the second removal hole is used for the user to remove the cleaning fluid bottle.
[0017] In one or more of the above optional embodiments, the first base includes a base, a frame, and a first housing, the dust collection port is disposed on the base, the frame is connected to the base to form the first receiving cavity, the first housing is connected to the frame, and the second base is detachably connected to at least one of the frame and the first housing; or, the first base includes a frame, the dust collection port is disposed at the bottom of the frame, at least a portion of the frame is hollow to form the first receiving cavity, and the second base is detachably connected to the frame.
[0018] This disclosure provides a cleaning base station, which is used in conjunction with cleaning equipment for at least maintaining the cleaning equipment. The base station includes a first base assembly, a second base assembly, and a top cover. The first base assembly includes a first base and a functional module connected to the first base. The first base has a first receiving cavity for accommodating and supporting the cleaning equipment. One side of the first receiving cavity has an opening for the cleaning equipment to enter and exit the first receiving cavity. The functional module includes at least one of a cleaning module, a drying module, a charging module, a control module, a heating module, and a liquid circuit module. The second base assembly is detachably mounted above the first base assembly. The second base assembly includes a second base and a dust collection module connected to the second base. The second base can... The cleaning base station is detachably installed above the first base, and the dust collection module is connected to the dust collection port provided on the first base. The dust collection port is used to communicate with the dust box of the cleaning equipment. A top cover is provided on the top of the first base or the second base. The cleaning base station includes at least a first use state and a second use state. In the first use state, the second base assembly is detached from the first base assembly, and the top cover is provided on the top of the first base. In the second use state, the second base assembly is installed on the top of the first base assembly, and the top cover is provided on the top of the second base.
[0019] In one or more of the above optional embodiments, in the first usage state, the cleaning base station further includes a first front cover connected to the upper cover; in the second usage state, the cleaning base station further includes a second front cover connected to the upper cover.
[0020] Embodiments of this disclosure provide a cleaning system, including a cleaning device and a cleaning base station as described in any of the above embodiments. The cleaning base station and the cleaning device are used together, at least for maintaining the cleaning device. The cleaning base station includes a first base assembly and a second base assembly. The first base assembly includes a first base and a functional module connected to the first base. The first base has a first receiving cavity for accommodating and supporting the cleaning device. One side of the first receiving cavity has an opening for the cleaning device to enter and exit the first receiving cavity. The functional module includes at least one of a washing module, a drying module, a charging module, a control module, a heating module, and a liquid circuit module. The second base assembly is detachably mounted above the first base assembly. The second base assembly includes a second base and a dust collection module connected to the second base. The second base is connected to the first base, and the dust collection module communicates with a dust collection port on the first base. The dust collection port communicates with the dust box of the cleaning device.
[0021] The cleaning base station and cleaning system disclosed herein arrange the different functions of the cleaning base station on different bases in a partitioned manner, so that the functional modules inside the cleaning base station are arranged in an orderly manner, and its height occupies less space, thus saving space. The second base can be detachably installed on top of the first base, reducing the space occupied by the disorderly stacking of different functions in the base and improving space utilization. At the same time, it can realize the assembly of the required functional modules according to different functional requirements, which is convenient for disassembly and assembly and can meet the different needs of users. Attached Figure Description
[0022] Figure 1 shows a schematic diagram of the structure of a clean base station in some embodiments.
[0023] Figure 2 shows a structural schematic diagram of a clean base station from another perspective in some embodiments.
[0024] Figure 3 shows a partial structural schematic diagram of the clean base station in Figure 1.
[0025] Figure 4 shows a partial structural diagram of the clean base station in Figure 1.
[0026] Figure 5 shows a partial structural schematic diagram of the clean base station in Figure 1.
[0027] Figure 6 shows a partial exploded view of the clean base station in Figure 1.
[0028] Figure 7 shows a partial structural schematic diagram of the clean base station in Figure 1.
[0029] Figure 8 shows a partial cross-sectional view of a clean base station in some embodiments.
[0030] Figure 9 shows a schematic diagram of the structure of another clean base station in some embodiments.
[0031] Figure 10 shows a schematic diagram of the cleaning system in some embodiments.
[0032] Explanation of key component symbols:
[0033] Cleaning base station 100, first base assembly 10, first base 11, first receiving cavity 111, opening 1111, dust collection port 112, base 113, frame 114, first housing 115, second receiving cavity 116, first removal hole 117, second removal hole 118, first air duct 119, functional module 12, cleaning module 121, cleaning tank 1211, drying module 122, first drying component 1221, second drying component 35, fourth air duct 1222, charging module 123, adapter 1231, control module 124, circuit board 124a, button 1241, heating module 125, heating component 12 51. Liquid circuit module 126, wastewater tank 1261, control valve 1262, power component 1263, maintenance liquid bottle 1264, cleaning liquid bottle 1265, first front cover 13, second base assembly 30, second base 31, third receiving cavity 311, through hole 312, dust collection module 32, dust collection receiving component 321, dust collection power component 322, second air duct 323, second front cover 33, third air duct 34, top cover 40, button cover 101, flexible component 102, first protrusion 1021, second protrusion 1241a, fixing part 103, fastener 104, cleaning equipment 200, cleaning component 210, cleaning system 300.
[0034] The following specific embodiments will further illustrate this disclosure in conjunction with the above-described accompanying drawings. Detailed Implementation
[0035] The technical solutions of the present disclosure will be described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present disclosure, and not all embodiments.
[0036] When a component is considered to be "located" on another component, it can be directly on the other component or may also be interspersed with other components. When a component is considered to be "connected" to another component, it can be directly connected to the other component or may also be interspersed with other components.
[0037] Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this disclosure belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of this disclosure. The term "or / and" as used herein includes any and all combinations of one or more of the associated listed items.
[0038] Unless otherwise defined, the term "multiple" in this document, when used to describe the number of components, specifically means that the component is two or more.
[0039] The following detailed description of some embodiments of this disclosure is provided in conjunction with the accompanying drawings. Unless otherwise specified, the following embodiments and features can be combined with each other.
[0040] Please refer to Figures 1 and 10. One embodiment of this disclosure provides a cleaning base station 100, which is used in conjunction with a cleaning device 200 for at least the maintenance of the cleaning device 200. The cleaning base station 100 includes a first base assembly 10 and a second base assembly 30. The second base assembly 30 is detachably mounted on top of the first assembly 10, as shown in Figures 1, 3, or 9, with Z1 being the upper part and Z2 being the lower part in the height direction Z.
[0041] In some embodiments, the first base assembly 10 includes a first base 11 and a functional module 12 connected to the first base 11. The first base 11 has a first receiving cavity 111 for accommodating and supporting the cleaning device 200. One side of the first receiving cavity 111 has an opening 1111 for allowing the cleaning device 200 to enter and exit the first receiving cavity 111. Exemplarily, the opening 1111 is located on one side of the first base 11, and its size along its height direction is larger than the height of the cleaning device 100 to facilitate the entry and exit of the cleaning device 100. The first receiving cavity 111 is located below the first base 11, and its volume is larger than the size of the cleaning device 100 to facilitate accommodating the cleaning device 100. For example, if the first base 11 is a hollow rectangular body with an opening on one side, then its hollow portion forms the first receiving cavity 111, and its open side forms the opening 1111.
[0042] In some embodiments, the top cover functional module 12 includes at least one of a cleaning module 121, a drying module 122, a charging module 123, a control module 124, a heating module 125, and a liquid circuit module 126.
[0043] In some embodiments, the second base assembly 30 includes a second base 31 and a dust collection module 32 connected to the second base 31. The second base 31 is detachably connected to the first base 11, for example, detachably mounted above the first base 11. The dust collection module 32 communicates with a dust collection port 112 provided on the first base 11. The dust collection port 112 is used to communicate with the dust box of the cleaning device 200.
[0044] By setting different functions of the cleaning base station 100 on different bases and arranging them in zones, the internal components of the cleaning base station 100 are stacked in a reasonable and orderly manner, and the space utilization rate is higher. The second base 31 can be detachably installed on top of the first base 11, and the required functional modules can be assembled according to different functional requirements. The assembly and disassembly are convenient and can meet the different needs of users.
[0045] Please refer to Figures 1, 2 to 5. In some embodiments, the first base 11 is provided with a dust collection port 112 and a first air duct 119. The first air duct 119 is connected to the dust collection port 112 and the first air duct 119 is connected to the dust collection module 32.
[0046] For example, the dust collection port 112 is located at the bottom of the first base 11 and faces the first receiving cavity 111 on one side, and is located in the first receiving cavity 111. The first air duct 119 is located at the bottom of the first base 11 and faces away from the first receiving cavity 111 on one side. Specifically, the first air duct 119 is located on the side of the first base 11 facing the surface to be cleaned, so it does not occupy the space of the first receiving cavity 111. For example, a part of the first air duct 119 is located at the bottom of the first base 11 on the side facing away from the first receiving cavity 111 to connect to the dust collection port 112, and another part of the first air duct 119 extends to the side of the first base 11 to connect to the dust collection module 32.
[0047] Referring to Figure 5, in some embodiments, the dust collection module 32 includes a dust collection housing 321 and a dust collection power unit 322. The dust collection housing 321 is connected to a second air duct 323, which is connected to a first air duct 119. The dust collection power unit 322 is connected to the dust collection housing 321. When the dust collection power unit 322 is working, the waste in the dust box of the cleaning equipment 200 enters the dust collection housing 321 sequentially through the dust collection port 112, the first air duct 119, and the second air duct 323.
[0048] Specifically, when the cleaning device 200 enters the first receiving cavity 111 through the opening 1111 and performs a dust collection operation, the dust collection port 112 is connected to the dust box of the cleaning device 200. The dust box is used to store the garbage collected by the cleaning device 200 during the cleaning task. This garbage includes, but is not limited to, dust, hair, food scraps, etc. For example, the bottom surface of the cleaning device 200 is provided with a hole that communicates with its dust box. When the cleaning device 200 enters the first receiving cavity 111 and is in place, the hole is connected to the dust collection port 112. When the dust collection power unit 322 works, it generates a suction airflow, which draws the garbage in the dust box into the dust collection receiving member 321.
[0049] For example, the dust collection power unit 322 includes a fan. When the fan starts working, it generates a negative pressure effect by rotating, drawing the waste in the dust box into the dust collection container 321. For example, the dust collection container 321 is a waste collection container with a larger volume than the dust box of the cleaning equipment 200, so as to store more waste and reduce the number of times the user needs to maintain it. It can be in different forms such as dust bags or dust boxes, and can be in different forms such as disposable or reusable.
[0050] In some embodiments, one end of the second air duct 323 is connected to the dust collection housing 321, and the other end extends to the side of the first base 11 and is connected to the first air duct 119. The first air duct 119 or the second air duct 323 is disposed on the side of the first base 11, so as not to occupy or to occupy as little space as possible in the first housing cavity 111 or the second housing cavity 116.
[0051] For example, the first air duct 119 and the second air duct 323 can be directly connected or indirectly connected through other components. For example, the first air duct 119 and the second air duct 323 are interference-fitted.
[0052] For example, during dust collection operations, the cleaning equipment 200 enters the first receiving cavity 111 through the opening 1111. The dust collection port 112 is connected to the dust box of the cleaning equipment 200. The dust collection power component 322 is started, and a negative pressure effect is generated by rotation, so that the garbage in the dust box of the cleaning equipment 200 enters the dust collection receiving component 321 in sequence through the dust collection port 112, the first air duct 119, and the second air duct 323.
[0053] Please refer to Figure 3. In some embodiments, a second receiving cavity 116 is formed between the second base 31 and the first base 11. The second receiving cavity 116 is located above the first receiving cavity 111, and at least some of the functional modules 12 are disposed in the second receiving cavity 116.
[0054] For example, the first base 11 has a first recess on the side facing the second base 31, and after the second base 31 is connected to the first base 11, the first recess serves as a second receiving cavity 116. Alternatively, the second base 31 has a second recess on the side facing the first base 11, and after the second base 31 is connected to the first base 11, the second recess serves as a second receiving cavity 116. Alternatively, the first base 11 has a first recess on the side facing the second base 31, and the second base 31 has a second recess on the side facing the first base 11, and after the second base 31 is connected to the first base 11, the first recess and the second recess together serve as a second receiving cavity 116.
[0055] In some embodiments, the first base 11 is provided with a plurality of fixing portions 103 located in the second receiving cavity 116, and the cleaning base station 100 further includes fasteners 104. The second base 31 is detachably connected to the first base 11 by means of fasteners 104 and fixing portions 103. Exemplarily, fasteners 104 include screws.
[0056] For example, the fixing part 103 protrudes into the second receiving cavity 116 to facilitate connection with the second base 31. The fixing part 103 is located near the edge of the second receiving cavity 116, which reduces the impact on the installation position of the functional module 12 and facilitates the arrangement of the functional module 12. For example, the fixing part 103 can be provided on the top of the frame 114.
[0057] Referring to Figure 1, in some embodiments, the cleaning module 121 includes a cleaning tank 1211 disposed within a first receiving cavity 111. The cleaning tank 1211 is located on the bottom surface of the first base 11 and is used to receive and clean the cleaning components 210 (e.g., a mop) of the cleaning device 200. Exemplarily, the cleaning tank 1211 is detachably disposed to facilitate its separate removal from the first receiving cavity 111 for cleaning.
[0058] For example, the cleaning device 200 enters the first receiving cavity 111 through the opening 1111. The dust collection port 112 communicates with the dust box of the cleaning device 200. The cleaning component 210 is disposed in the cleaning tank 1211, and the liquid circuit module 126 injects liquid into the cleaning tank 1211. The cleaning device 200 drives the cleaning component 210 to rotate relative to the cleaning tank 1211, and the cleaning component 210 is cleaned by friction with the cleaning tank 1211. Alternatively, the cleaning disc in the cleaning tank 1211 moves relative to the cleaning component 210 to clean the cleaning component 210.
[0059] In some embodiments, the fluid circuit module 126 includes a wastewater tank 1261 disposed within a second receiving cavity 116, a control valve 1262 communicating with the wastewater tank 1261, and a power component 1263 communicating with the control valve 1262. The wastewater tank 1261 is connected to the cleaning tank 1211 and the outside; for example, the inlet of the wastewater tank 1261 is connected to the cleaning tank 1211, and the outlet is connected to the outside (e.g., a floor drain or sewer). The power component 1263 controls the flow of wastewater from the cleaning unit 210 in the cleaning tank 1211 into the wastewater tank 1261 or the discharge of wastewater from the wastewater tank 1261 to the outside by controlling the closing of the control valve 1262.
[0060] For example, the power component 1263 controls the control valve 1262 to close the corresponding pipeline and put it into a liquid pumping state, thereby extracting the gas in the sewage tank 1261 and drawing the sewage in the cleaning tank 1211 into the sewage tank 1261 under negative pressure. When the sewage tank 1261 is full or the sewage needs to be discharged, it is put into a liquid discharge state, and gas is injected into the sewage tank 1261 to discharge the sewage stored in the sewage tank 1261 to the outside (e.g., the sewer) under positive pressure.
[0061] Please refer to Figures 4 and 5. In some embodiments, a third receiving cavity 311 is provided above the second receiving cavity 116, and at least part of the dust collection module 32 is located in the third receiving cavity 311.
[0062] In some embodiments, the clean base station 100 further includes a second front cover 33 and an upper cover 40, the upper cover 40 being disposed above the second base 31, and the second front cover 33 being connected to the upper cover 40.
[0063] For example, the second base 31 has a third recess on the side facing the upper cover 40. After the upper cover 40 is connected to the second base 31, the third recess serves as the second receiving cavity 116. Alternatively, the upper cover 40 has a fourth recess on the side facing the second base 31. After the upper cover 40 is connected to the second base 31, the fourth recess serves as the second receiving cavity 116. Alternatively, the second base 31 has a third recess on the side facing the upper cover 40, and the upper cover 40 has a fourth recess on the side facing the second base 31. After the upper cover 40 is connected to the second base 31, the third and fourth recesses together serve as the second receiving cavity 116.
[0064] For example, the dust collection housing 321 is disposed in the third housing cavity 311, and the dust collection power unit 322 is partially disposed in the third housing cavity 311 and partially disposed in the second housing cavity 116. Since the dust collection power unit 322 will generate vibration and noise during dust collection operation, by distributing it in the second housing cavity 116 and the third housing cavity 311, it is convenient to simultaneously install vibration damping components on the first base 11 and the second base 31 to alleviate its vibration. At the same time, the first base 11 and the second base 31 are used for double sound insulation to reduce the impact of noise.
[0065] Referring to Figure 4, in some embodiments, the second base assembly 30 further includes a second drying element 35, which is disposed in the third receiving cavity 311 and connected to the dust collection receiving element 321 through the third air duct 34.
[0066] The third air duct 34 and the second drying component 35 are disposed on the second base 31. The third air duct 34 connects the dust collection container 321 and the second drying component 35. The second drying component 35 dries the dust collection container 321 through the third air duct 34.
[0067] In some embodiments, one end of the third air duct 34 is connected to the dust collection container 321, and the other end is connected to the second drying member 35. The second drying member 35 blows hot air into the dust collection container 321 through the third air duct 34 to dry the interior of the dust collection container 321 and prevent the internal waste from emitting odors. For example, the dust collection container 321 can be made of a breathable material. With the third air duct 34 directly connected to the dust collection container 321, the hot air from the second drying member 35 is directly blown into the dust collection container 321 through the third air duct 34, resulting in higher drying efficiency. During the drying operation, the second drying member 35 blows hot air into the dust collection container 321 through the third air duct 34, and a small amount of hot air can flow back to the second air duct 323 through the dust collection container 321, thereby drying the second air duct 323.
[0068] Generally, after the dust collection operation is completed, the garbage entering the dust collection container 321 may contain moisture or be damp. If it is not cleaned for a long time, bacteria will grow, or even rot and smell bad. Therefore, a drying operation can be performed, and the dust collection container 321 can be dried by the second drying unit 35 to extend the storage time of the garbage and reduce the number of maintenance times for users.
[0069] In other embodiments, the third air duct 34 is connected to the second air duct 323 and the second drying component 35. That is, the third air duct 34 is indirectly connected to the dust collection container 321. The second drying component 35 dries the dust collection container 321 through the third air duct 34 and the second air duct 323. While drying the dust collection container 321, it can also dry the second air duct 323, preventing the liquid in the second air duct 323 from adhering to the garbage during dust collection. This can reduce the chance of bacteria or odor, improve dust collection efficiency, and reduce the number of times users need to maintain it.
[0070] In some embodiments, the second drying element 35 can also dry the first air duct 119 through the second air duct 323, reducing the liquid in the first air duct 119 and preventing debris from adhering to the liquid in the first air duct 119 during dust collection. Exemplarily, the first air duct 119 is connected to the second air duct 323. During the drying operation, the second drying element 35 blows hot air into the dust collection container 321 through the third air duct 34, then flows through the dust collection container 321 to the second air duct 323, and then through the second air duct 323 to the first air duct 119, thereby drying the first air duct 119.
[0071] In some embodiments, the second base 31 is provided with a through hole 312, which penetrates the side wall of the second base 31. During the dust collection operation, the suction airflow generated by the dust collection power unit 322; or during the drying operation, the airflow released from the dust collection housing 321 can be discharged to the outside of the cleaning base station 100 through the through hole 312.
[0072] In some embodiments, the top cover 40 and the second base 31 are arranged along the height direction of the cleaning base station 100. For example, a portion of the top cover 40 and the second base 31 are arranged along the height direction of the cleaning base station 100, and the remaining portion of the top cover 40 extends to the side of the second base 31.
[0073] In some embodiments, the upper cover 40 is detachably connected to the second base 31. Exemplarily, the connection between the upper cover 40 and the second base 31 includes, but is not limited to, snap-fit and fasteners. For example, one of the upper cover 40 and the second base 31 may have a snap-fit, and the other may have a slot; when the upper cover 40 and the second base 31 are connected, the snap-fit is located in the slot. As another example, one of the upper cover 40 and the second base 31 may have a connecting portion with a connecting hole, and the other may have a mating hole; when the upper cover 40 and the second base 31 are connected, the fastener passes through the connecting hole and is connected to the mating hole.
[0074] For example, the top cover 40 and the second base 31 are connected by an interference fit.
[0075] In some embodiments, the second front cover 33 is located above the opening 1111.
[0076] In some embodiments, the cleaning base station 100 includes a button cover 101, which is movably connected to a second front cover 33. That is, the second front cover 33 can be regarded as a user's operation panel, and the cleaning base station 100 is controlled through the button cover 101 thereon.
[0077] In some embodiments, the control module 124 includes a circuit board 124a disposed in the second receiving cavity 116, and the button cover 101 is electrically connected to the circuit board 124a.
[0078] Referring to Figures 5 and 8, in some embodiments, the circuit board 124a is provided with a button 1241, and the button cover 101 is connected to the button 1241. The button 1241 is controlled by the button cover 101, thereby controlling the operation, shutdown, or adjustment of the cleaning mode of the cleaning base station 100.
[0079] In some embodiments, a flexible member 102 is provided between the button cover 101 and the button 1241. Exemplarily, the flexible member 102 includes silicone. When a user triggers the button 1241 through the button cover 101, the flexible member 102 ensures a flexible connection between the button cover 101 and the button 1241, avoiding rigid contact between them, thus extending their service life and reducing the frequency of maintenance by the user.
[0080] In some embodiments, the flexible member 102 has a first protrusion 1021 on the side facing the button 1241, and / or the button 1241 has a second protrusion 1241a on the side facing the flexible member 102. Exemplarily, the first protrusion 1021 abuts against the second protrusion 1241a, and the force acting on the button 1241 is transmitted to the first protrusion 1021 through the second protrusion 1241a, and then acts on the button 1241 through the first protrusion 1021.
[0081] In some embodiments, there is a space between the button cover 101 and the flexible member 102, which allows the user to press the button cover 101 a certain distance before pressing the button 1241.
[0082] Referring to Figures 2 and 5, in some embodiments, the fluid circuit module 126 includes a maintenance fluid bottle 1264 disposed within a second receiving cavity 116. The first base 11 also includes a first removal hole 117 communicating with the second receiving cavity 116, the first removal hole 117 being used by a user to remove the maintenance fluid bottle 1264.
[0083] For example, when the maintenance solution in the maintenance solution bottle 1264 is used up, the user can easily remove the maintenance solution bottle 1264 through the first removal hole 117, refill it, or take a new maintenance solution bottle 1264 and install it in the second receiving cavity 116, which can improve the user experience. For example, the user can reach into the first removal hole 117 to push the maintenance solution bottle 1264 outwards, and if the first front cover 13 or the second front cover 33 has been removed, the maintenance solution bottle 1264 can be removed from the front; similarly, when installing the maintenance solution bottle 1264, it can be placed into the second receiving cavity 116 from the front.
[0084] In some embodiments, the fluid circuit module 126 includes a cleaning fluid bottle 1265 disposed within a second receiving cavity 116. The first base 11 also includes a second removal hole 118 communicating with the second receiving cavity 116, the second removal hole 118 being used for a user to remove the cleaning fluid bottle 1265.
[0085] For example, when the cleaning fluid in the cleaning fluid bottle 1265 is used up, the user can easily remove the cleaning fluid bottle 1265 through the second removal hole 118, refill it, or take a new cleaning fluid bottle 1265 and install it in the second receiving cavity 116, which can improve the user experience. For example, the user can reach into the second removal hole 118 to push the cleaning fluid bottle 1265 outwards, and remove the cleaning fluid bottle 1265 from the front if the first front cover 13 or the second front cover 33 has been removed; similarly, when installing the cleaning fluid bottle 1265, it can be placed into the second receiving cavity 116 from the front.
[0086] Referring to Figure 3, in some embodiments, the drying module 122 includes a first drying element 1221 disposed within the second receiving cavity 116, and a fourth air duct 1222 communicating with the first receiving cavity 111 for drying the cleaning element 210, washing tank 1211, etc. of the cleaning device 200. Exemplarily, the fourth air duct 1222 is disposed within the second receiving cavity 116, with one end communicating with the first drying element 1221 and the other end communicating with the first receiving cavity 111. For example, an opening communicating with the other end of the fourth air duct 1222 is provided at the top of the first base 11; or, a portion of the fourth air duct 1222 is disposed within the second receiving cavity 116, and another portion is disposed within the first receiving cavity 111, that is, the other portion of the fourth air duct 1222 extends into the first receiving cavity 111.
[0087] For example, after the cleaning component 210 is cleaned, the drying component 1221 blows hot air into the fourth air duct 1222, which then enters the first receiving cavity 111 to dry the cleaning component 210.
[0088] In some embodiments, the charging module 123 includes a charging electrode (not shown) disposed in a first receiving cavity 111 and an adapter 1231 disposed in a second receiving cavity 116. The charging electrode is electrically connected to the adapter 1231 and is used to connect to the charging pad of the cleaning device 200 to charge the cleaning device 200.
[0089] In some embodiments, the heating module 125 includes a heating element 1251, which is used to heat the water in the cleaning unit 210 for hot cleaning. For example, the heating element 1251 is a heating pipe with an inlet and an outlet. Cold water is supplied to the inlet of the heating pipe, heated by the heating pipe, and flows to the outlet. The hot water is then supplied to the cleaning tank 1211 to wash the mop with hot water. The mop remains warm after washing, which allows for hot water mopping and improves the cleaning effect.
[0090] Referring to Figure 1, in some embodiments, the first base 11 includes a base 113, a frame 114, and a first housing 115. A dust collection port 112 is located on the base 113 and within the first receiving cavity 111; the frame 114 connects to the base 113 and forms the first receiving cavity 111. The first housing 115 connects to the frame 114. Exemplarily, the frame 114 covers the base 113, and the first housing 115 surrounds the sidewalls of the frame 114, serving as an outer decorative panel of the first base 11. Since the frame 114 mainly serves as a supporting or connecting mechanism for the functional module 12, and needs to contain or connect the functional module 12, its appearance may be irregular. By providing the first housing 115 outside the frame 114, the overall appearance of the first base 11 becomes more regular, for example, rectangular.
[0091] In some embodiments, the second base 31 is detachably connected to at least one of the frame 114 and the first housing 115. Exemplarily, the second base 31 is detachably connected to the frame 114, and the connection method between the second base 31 and the frame 114 includes, but is not limited to, snap-fit fasteners. For example, one of the second base 31 and the frame 114 is provided with a snap-fit, and the other of the second base 31 and the frame 114 is provided with a slot; when the second base 31 and the frame 114 are connected, the snap-fit is disposed within the slot. As another example, one of the second base 31 and the frame 114 is provided with a connecting portion and a connecting hole, and the other of the second base 31 and the frame 114 is provided with a mating hole; when the second base 31 and the frame 114 are connected, a fastener passes through the connecting hole and is mated to the mating hole. Fasteners include screws.
[0092] For example, the second base 31 is connected to the frame 114 by an interference fit.
[0093] Exemplarily, the second base 31 is detachably connected to the first housing 115. The connection between the second base 31 and the first housing 115 includes, but is not limited to, snap-fit and fasteners. For example, one of the second base 31 and the first housing 115 is provided with a snap-fit, and the other of the second base 31 and the first housing 115 is provided with a slot. When the second base 31 and the first housing 115 are connected, the snap-fit is located in the slot. As another example, one of the second base 31 and the first housing 115 has a connecting portion with a connecting hole, and the other of the second base 31 and the first housing 115 has a mating hole. When the second base 31 and the first housing 115 are connected, a fastener passes through the connecting hole and is connected to the mating hole. Fasteners include screws.
[0094] For example, the second base 31 is connected to the first housing 115 by an interference fit.
[0095] For example, the second base 31 is detachably connected to the frame 114 and the first housing 115. The connection between the second base 31 and the frame 114 and the first housing 115 includes, but is not limited to, snaps and fasteners.
[0096] For example, the second base 31 is connected to the frame 114 and the first housing 115 by an interference fit.
[0097] In some embodiments, the base 113 and the frame 114 are integrally formed. Exemplarily, the base 113 and the frame 114 are integrally injection molded.
[0098] In some embodiments, the base 113 and the frame 114 are separately disposed. Exemplarily, the base 113 and the frame 114 are separately injection molded, and the connection method between the two includes, but is not limited to, snap-fit, fasteners, etc.
[0099] In other embodiments, the first base 11 includes a frame 114, with a dust collection port 112 located at the bottom of the frame 114. At least a portion of the frame 114 is hollow to form a first receiving cavity 111, and the second base 31 is detachably connected to the frame 114.
[0100] For example, the frame 114 includes a bottom wall, a top wall, and three side walls, which are connected in sequence and connect the bottom wall and the top wall to form a first receiving cavity 111 and an opening 1111 communicating with the first receiving cavity 111. For example, the frame 114 is a hollow rectangular body with an opening on one side, the hollow part of the rectangular body is the first receiving cavity 111, and the opening on one side is the opening 1111.
[0101] For example, the bottom wall, top wall, and side wall are integrally formed. Specifically, the bottom wall, top wall, and side wall are integrally injection molded. For example, the bottom wall, top wall, and side wall are separately formed. Specifically, the bottom wall, top wall, and side wall are individually injection molded, and the connection method between the side wall and the bottom wall or the side wall and the top wall includes, but is not limited to, snap-fit, fasteners, etc.
[0102] In some embodiments, button 1241 is disposed on frame 114.
[0103] In some embodiments, the flexible element 102 is disposed on the frame 114.
[0104] Referring to Figure 9, in some embodiments, the clean base station 100 further includes a first front cover 13 and an upper cover 40, with the upper cover 40 covering the top of the first base 11 and the first front cover 13 connected to the upper cover 40.
[0105] For example, the top cover 40 and the first base 11 are arranged along the height direction of the cleaning base station 100. For instance, a portion of the top cover 40 and the first base 11 are arranged along the height direction of the cleaning base station 100, and the remaining portion of the top cover 40 extends to the side of the first base 11.
[0106] For example, the upper cover 40 and the first base 11 form a second receiving cavity 116. For instance, the first base 11 has the fifth recess on the side facing the upper cover 40, and after the upper cover 40 is connected to the first base 11, the fifth recess serves as the second receiving cavity 116. As another example, the upper cover 40 has the sixth recess on the side facing the first base 11, and after the upper cover 40 is connected to the first base 11, the sixth recess serves as the second receiving cavity 116. Yet another example, the first base 11 has a fifth recess on the side facing the upper cover 40, and the upper cover 40 has a sixth recess on the side facing the first base 11; after the upper cover 40 is connected to the first base 11, the fifth and sixth recesses together serve as the second receiving cavity 116.
[0107] In some embodiments, the upper cover 40 is detachably connected to the first base 11. Exemplarily, the connection between the upper cover 40 and the first base 11 includes, but is not limited to, snap-fit and fasteners. For example, one of the upper cover 40 and the first base 11 may have a snap-fit, and the other may have a slot; when the upper cover 40 is connected to the first base 11, the snap-fit is located in the slot. As another example, one of the upper cover 40 and the first base 11 may have a connecting portion with a connecting hole, and the other may have a mating hole; when the upper cover 40 is connected to the first base 11, the fastener passes through the connecting hole and is connected to the mating hole.
[0108] For example, the top cover 40 is connected to the first base 11 by an interference fit.
[0109] In some embodiments, the first front cover 13 is located above the opening 1111. A button cover 101 is movably connected to the first front cover 13, that is, the first front cover 13 can be regarded as the user's operation panel, and the cleaning base station 100 is controlled by the button cover 101 thereon.
[0110] In some embodiments, the control module 124 includes a circuit board 124a disposed in the second receiving cavity 116, and the button cover 101 is electrically connected to the circuit board 124a.
[0111] In some embodiments, the circuit board 124a is provided with a button 1241, and a button cover 101 is connected to the button 1241. The button 1241 is controlled by the button cover 101, thereby controlling the operation, shutdown, or adjustment of the cleaning mode of the cleaning base station 100.
[0112] In some embodiments, a flexible member 102 is provided between the button cover 101 and the button 1241. Exemplarily, the flexible member 102 includes silicone. When a user triggers the button 1241 through the button cover 101, the flexible member 102 ensures a flexible connection between the button cover 101 and the button 1241, avoiding rigid contact between them, thus extending their service life and reducing the frequency of maintenance by the user.
[0113] In some embodiments, the flexible member 102 has a first protrusion 1021 on the side facing the button 1241, and / or the button 1241 has a second protrusion 1241a on the side facing the flexible member 102. Exemplarily, the first protrusion 1021 abuts against the second protrusion 1241a, and the force acting on the button 1241 is transmitted to the first protrusion 1021 through the second protrusion 1241a, and then acts on the button 1241 through the first protrusion 1021.
[0114] In some embodiments, there is a space between the button cover 101 and the flexible member 102, which allows the user to press the button cover 101 a certain distance before pressing the button 1241.
[0115] Comparing Figures 9 and 6, it can be seen that the cleaning base station 100 shown in the two embodiments are two different types of base stations. The cleaning base station 100 in Figure 9 only includes the first base component 10, which can meet the daily needs of general users (such as washing mops, charging, etc.). Its height is relatively short and its space occupation is relatively small. On the other hand, the cleaning machine 100 in Figure 6 adds a second base component 30 on the basis of the first base component 10, that is, it adds some needs (such as dust collection) on the basis of daily needs. Its height is relatively high and its space occupation is relatively large.
[0116] Referring to Figures 1 and 9, another embodiment discloses a cleaning base station 100, including the first base assembly 10, the second base assembly 30, and the top cover 40 described above. The first base assembly 10 includes a first base 11 and a functional module 12 connected to the first base 11. The first base 11 has a first receiving cavity 111 for accommodating and supporting a cleaning device 200. One side of the first receiving cavity 111 has an opening 1111 for allowing the cleaning device 200 to enter and exit the first receiving cavity 111. The functional module 12 includes at least one of a cleaning module, a drying module, a charging module, a control module, a heating module, and a liquid circuit module. The second base assembly 30 is detachably mounted above the first base assembly 10. The base assembly 30 includes a second base 31 and a dust collection module 32 connected to the second base 31. The second base 31 is detachably mounted above the first base 11. The dust collection module 32 communicates with a dust collection port 112 provided on the first base 11. The dust collection port 112 is used to communicate with the dust box of the cleaning device 200. The top cover 40 is provided above the first base 11 or the second base 31. The cleaning base station 100 includes at least a first use state and a second use state. In the first use state, the second base assembly 30 is detached from the first base assembly 10, and the top cover 40 is provided above the first base 11. In the second use state, the second base assembly 30 is mounted above the first base assembly 10, and the top cover 40 is provided above the second base 31.
[0117] It should be noted that the specific features of the first base assembly 10, the second base assembly 30 and the upper cover 40 in this embodiment are the same as or similar to those in the embodiments described above, and will not be repeated here.
[0118] In some embodiments, the clean base station 100 includes at least a first usage state and a second usage state. In the first usage state (as shown in FIG9), the second base assembly 30 is removed from the first base assembly 10, and the top cover 40 is placed on top of the first base 11.
[0119] For example, the second base 31 is detached from the first base 11 and the upper cover 40 is connected to the first base 11. At this time, the cleaning base station 100 in the first use state has basic functions, including at least one of the following functions: charging the cleaning equipment 200, washing the mop, drying the mop, pumping wastewater and / or adding clean water to the cleaning equipment 200, etc.
[0120] In some embodiments, the cleaning base station 100 further includes a first front cover 13, which is connected to the upper cover 40. That is, in the first usage state, the first front cover 13 is the operation panel of the cleaning base station 100.
[0121] In some embodiments, in a second usage state (as shown in FIG1), the clean base station 100 has a second base assembly 30 mounted above the first base assembly 10, and a top cover 40 covering the second base 31.
[0122] For example, the second base 31 is installed on the first base 11, and the upper cover 40 is connected to the second base 31. Compared with the cleaning base station 100 in the first use state, the cleaning base station 100 in the second use state also has a dust collection function. In addition to the above basic functions, the cleaning base station 100 can also collect dust from the cleaning equipment 200 and dry the dust bag of the cleaning base station 100.
[0123] In some embodiments, the cleaning base station 100 further includes a second front cover 33, which is connected to the upper cover 40. That is, in the second usage state, the second front cover 33 is the operation panel of the cleaning base station 100.
[0124] By arranging the different functions of the cleaning base station 100 on different bases and implementing a zoned layout (e.g., dry and wet separation, with liquid-related functions on the lower layer and dust collection-related functions on the upper layer), the internal components of the cleaning base station 100 are stacked in a reasonable and orderly manner, resulting in higher space utilization. The second base 31 is detachably installed above the first base 11 and can be combined according to different needs. This reduces the space occupied by low-configuration cleaning base stations 100 due to different functions sharing the same base, thus improving space utilization. High-configuration cleaning base stations 100 share the first base 11 with low-configuration cleaning base stations 100, saving costs.
[0125] From a production perspective, the cleaning base station 100 in both the first and second usage states shares the first base component 10. During production and installation, it is only necessary to determine whether to install the second base component 30 according to different product requirements, making installation convenient. From the user's perspective, users can purchase products in different usage states as needed, and can also meet new needs at a relatively low cost when requirements change. For example, if a user purchases the cleaning base station 100 in the first usage state, and subsequently needs dust collection, they can purchase the second base component 30 and install it on the first base component 10, without having to purchase a new base station, thus saving on usage costs. Similarly, if a user purchases the cleaning base station 100 in the second usage state, and subsequently no longer needs dust collection (e.g., if the dust collection function is damaged and they do not want to repair or replace it, or if their home has limited space and cannot accommodate a tall cleaning base station), they can remove the second base component 30 themselves without having to purchase a new base station, saving on usage costs.
[0126] Please refer to Figure 10. This disclosure provides a cleaning system 300, including a cleaning device 200 and a cleaning base station 100. The cleaning base station 100 is used at least for maintaining the cleaning device 200. The cleaning base station 100 is the cleaning base station 100 in any of the above embodiments. For example, the cleaning base station 100 includes a first base assembly 10 and a second base assembly 30. The first base assembly 10 includes a first base 11 and a functional module 12 connected to the first base 11. The first base 11 has a first receiving cavity 111 for accommodating and supporting the cleaning device 200. One side of the first receiving cavity 111 has an opening 1111 for allowing the cleaning device 200 to enter and exit the first receiving cavity 111. The functional module 12 includes at least one of a cleaning module, a drying module, a charging module, a control module, a heating module, and a liquid circuit module. The second base assembly 30 is detachably mounted above the first base assembly 10. The second base assembly 30 includes a second base 31 and a dust collection module 32 connected to the second base 31. The second base 31 is detachably mounted above the first base 11. The dust collection module 32 communicates with a dust collection port 112 provided on the first base 11. The dust collection port 112 communicates with the dust box of the cleaning device 200.
[0127] It should be noted that the specific features of the cleaning device 200 and the cleaning base station 100 in this embodiment are the same as or similar to those in the embodiments described above, and will not be repeated here.
[0128] It should be noted that the maintenance described herein includes, but is not limited to, charging, dust collection, mop washing, drying, and pumping out wastewater and / or adding clean water to the cleaning equipment 200. It can be understood that the cleaning equipment 200 can perform at least one of the following within the cleaning base station 100: 1. The cleaning base station 100 charges the cleaning equipment 200; 2. The cleaning base station 100 collects the debris from the cleaning equipment 200 into its dust collection container 321; 3. The cleaning equipment 200's cleaning components 210 (e.g., mop, roller, etc.) is cleaned within the cleaning base station 100; 4. The cleaning base station 100 adds clean water to the cleaning equipment 200's clean water tank; 5. The cleaning base station 100 collects dirt from the cleaning equipment 200's wastewater tank into its dirty container. The above maintenance types are merely illustrative descriptions and are not intended to limit this disclosure. The cleaning equipment 200 described herein includes, but is not limited to, sweeping machines, mopping machines, sweeping and mopping combos, floor scrubbers, vacuum cleaners, and other cleaning equipment, which include, but are not limited to, those with cleaning functions.
[0129] As shown in Figures 1, 3, or 9, in the front-to-back direction Y of the cleaning base station 100, Y1 represents the front and Y2 represents the rear; in the left-to-right direction X, X1 represents the left and X2 represents the right; and in the height direction Z, Z1 represents the top and Z2 represents the bottom. For example, the opening 1111 is located in front of the cleaning base station 100, the wastewater tank 1261 is located at the lower right of the cleaning base station 100, the first drying element 1221 is located at the rear of the cleaning base station 100 near the center, the fourth air duct 1222 is located at the rear of the cleaning base station 100 and behind the first drying element 1221, the control valve 1262 is located at the left rear of the cleaning base station 100 near the center, and the maintenance liquid bottle 1264 and the cleaning liquid bottle 1265 are located in front of the cleaning base station 100 and arranged to the left and right. The heating module 125 is located on the left side of the cleaning base station 100, near the center, and behind the maintenance liquid bottle 1264 or the cleaning liquid bottle 1265. The charging module 123 is located on the left rear of the cleaning base station 100 and to the left of the control valve 1262. The dust collection container 321 is located in front of the cleaning base station 100. The dust collection power unit 322 is located on the right side of the cleaning base station 100 and behind the dust collection container 321. The second drying unit 35 is located near the center of the cleaning base station 100 and to the left of the dust collection power unit 322. The third air duct 34 is located on the left side of the cleaning base station 100, near the center, and to the left of the second drying unit 35. The through hole 312 is located on the lower left side wall of the cleaning base station 100.
[0130] In summary, compared with existing technologies, the clean base station 100 and the clean system 300 have at least the following beneficial effects:
[0131] The cleaning base station and cleaning system disclosed herein arrange the different functions of the cleaning base station on different bases in a partitioned manner, so that the functional modules inside the cleaning base station are arranged in an orderly manner, and its height occupies less space, thus saving space. The second base can be detachably installed on top of the first base, reducing the space occupied by the disorderly stacking of different functions in the base and improving space utilization. At the same time, it can realize the assembly of the required functional modules according to different functional requirements, which is convenient for disassembly and assembly and can meet the different needs of users.
[0132] Those skilled in the art should recognize that the above embodiments are merely illustrative of this disclosure and are not intended to limit this disclosure. Any appropriate changes and variations made to the above embodiments within the spirit and essence of this disclosure fall within the scope of this disclosure.
Claims
1. A cleaning base station, said cleaning base station being used in conjunction with cleaning equipment and at least for maintaining said cleaning equipment, characterized in that, The clean base station includes: A first base assembly includes a first base and a functional module connected to the first base. The first base has a first receiving cavity for accommodating and supporting the cleaning device. One side of the first receiving cavity has an opening for the cleaning device to enter and exit the first receiving cavity. The functional module includes at least one of a cleaning module, a drying module, a charging module, a control module, a heating module, and a liquid circuit module. The second base assembly is detachably mounted above the first base assembly. The second base assembly includes a second base and a dust collection module connected to the second base. The second base is detachably connected to the first base. The dust collection module communicates with a dust collection port provided on the first base. The dust collection port is used to communicate with the dust box of the cleaning equipment.
2. The clean base station as described in claim 1, characterized in that, The first base is provided with the dust collection port and a first air duct communicating with the dust collection port; The dust collection module includes a dust collection housing and a dust collection power component. The dust collection housing is connected to a second air duct, the second air duct is connected to a first air duct, and the dust collection power component is connected to the dust collection housing. When the dust collection power unit is working, the garbage in the dust box of the cleaning equipment enters the dust collection container in sequence through the dust collection port, the first air duct, and the second air duct.
3. The clean base station as described in claim 1, characterized in that, A second receiving cavity is formed between the second base and the first base, the second receiving cavity being located above the first receiving cavity, and at least a portion of the functional modules are disposed in the second receiving cavity.
4. The clean base station as described in claim 3, characterized in that, A third receiving cavity is provided above the second receiving cavity, and at least part of the dust collection module is located in the third receiving cavity.
5. The clean base station as described in claim 4, characterized in that, The second base assembly also includes a second drying element disposed in the third receiving cavity, the second drying element being connected to the dust collection receiving element via a third air duct.
6. The clean base station as described in claim 3, characterized in that, The clean base station also includes a second front cover and an upper cover, the upper cover being disposed above the second base, and the second front cover being connected to the upper cover.
7. The clean base station as described in claim 6, characterized in that, The functional module includes a control module, which includes a circuit board disposed within the second receiving cavity; A button cover is movably connected to the second front cover, and the button cover is electrically connected to the circuit board.
8. The clean base station as described in claim 7, characterized in that, The circuit board is provided with a button, the button cover is connected to the button, and a flexible component is provided between the two, with a space for movement between the button cover and the flexible component.
9. The clean base station as described in claim 3, characterized in that, The functional module includes a fluid circuit module, which includes at least one of a maintenance fluid bottle and a cleaning fluid bottle disposed in the second receiving cavity. The first base also includes at least one of a first removal hole and a second removal hole communicating with the second receiving cavity. The first removal hole is used for the user to remove the maintenance fluid bottle, and the second removal hole is used for the user to remove the cleaning fluid bottle.
10. The clean base station as described in claim 1, characterized in that, The first base includes a base, a frame, and a first housing. The dust collection port is located on the base. The frame is connected to the base to form the first receiving cavity. The first housing is connected to the frame. The second base is detachably connected to at least one of the frame and the first housing. Alternatively, the first base includes a frame. The dust collection port is located at the bottom of the frame. At least a portion of the frame is hollow to form the first receiving cavity. The second base is detachably connected to the frame.
11. A cleaning base station, said cleaning base station being used in conjunction with cleaning equipment and at least for maintaining said cleaning equipment, characterized in that, The clean base station includes: A first base assembly includes a first base and a functional module connected to the first base. The first base has a first receiving cavity for accommodating and supporting the cleaning device. One side of the first receiving cavity has an opening for the cleaning device to enter and exit the first receiving cavity. The functional module includes at least one of a cleaning module, a drying module, a charging module, a control module, a heating module, and a liquid circuit module. A second base assembly is detachably mounted above the first base assembly. The second base assembly includes a second base and a dust collection module connected to the second base. The second base is detachably mounted above the first base. The dust collection module communicates with a dust collection port located on the first base, and the dust collection port communicates with the dust box of the cleaning equipment. The top cover is disposed above the first base or the second base; The clean base station includes at least a first usage state and a second usage state. In the first usage state, the second base assembly is detached from the first base assembly, and the top cover is placed on top of the first base. In the second usage state, the second base assembly is installed on top of the first base assembly, and the top cover is placed on top of the second base.
12. The clean base station as described in claim 1, characterized in that, In the first usage state, the cleaning base station further includes a first front cover, which is connected to the upper cover; in the second usage state, the cleaning base station further includes a second front cover, which is connected to the upper cover.
13. A cleaning system, characterized in that, include: Cleaning equipment and a cleaning base station, wherein the cleaning base station is used in conjunction with the cleaning equipment and is at least used for maintaining the cleaning equipment; The clean base station includes: A first base assembly includes a first base and a functional module connected to the first base. The first base has a first receiving cavity for accommodating and supporting the cleaning device. One side of the first receiving cavity has an opening for the cleaning device to enter and exit the first receiving cavity. The functional module includes at least one of a cleaning module, a drying module, a charging module, a control module, a heating module, and a liquid circuit module. The second base assembly is detachably mounted above the first base assembly. The second base assembly includes a second base and a dust collection module connected to the second base. The second base is connected to the first base. The dust collection module communicates with a dust collection port on the first base. The dust collection port is used to communicate with the dust box of the cleaning device.