Base station and cleaning system

Abstract

The utility model relates to cleaning tool technical field, specifically disclose a base station and cleaning system, the base station includes: main support and dust bag, the inside structure of main support is used for accommodating the containing cavity of dust bag, one side of containing cavity has the installation mouth, and at least one part in the outer surface of main support is structured as the appearance surface of base station. According to the base station of utility model embodiment, at least one part of main support is structured as the appearance surface of base station, and dust bag is directly arranged on the main support that can be as the appearance surface of base station at least part, need no longer set up the structural member that forms the cavity of containing dust bag in the support inside as appearance surface, can simplify the structure of base station, reduce the number of parts of base station.

Description

[0001] Cross-references 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 field of cleaning tool technology, and in particular to a base station and a cleaning system. Background Technology

[0004] Cleaning equipment typically includes a separation device, a suction head, a suction device, and a dust cup. The suction head draws in external dirt and directs it into the dust cup, where the separation device separates it. The dirt remains in the dust cup, while the separated clean airflow flows out of the separation device, enters the suction device, and is then discharged from the cleaning equipment, forming an airflow cycle for cleaning. In related technologies, base stations are used to clean the dirt from the dust cup of the cleaning equipment, reducing the user's operational burden. Base stations usually have a separate structure from the housing to install the dust bag, resulting in a more complex structure, requiring more molds, and increasing the manufacturing cost of the base station. Utility Model Content

[0005] This invention aims to at least partially solve one of the technical problems in the related art. Therefore, one objective of this invention is to provide a base station that can reduce the number of parts and improve the production and installation efficiency of the base station.

[0006] Another objective of this invention is to provide a cleaning device, including the aforementioned base station.

[0007] A base station according to an embodiment of the present invention includes: a main support and a dust bag, wherein the inner side of the main support is configured with a receiving cavity for accommodating the dust bag, the receiving cavity having an installation opening, and at least a portion of the outer surface of the main support is configured as the outer surface of the base station.

[0008] According to the embodiment of the present utility model, at least a portion of the main support is configured as the exterior surface of the base station. The dust bag is directly set on the main support that can serve as at least a portion of the exterior surface of the base station. There is no need to set up additional structural components to form a cavity for accommodating the dust bag inside the support that serves as the exterior surface. This simplifies the structure of the base station and reduces the number of components in the base station.

[0009] In addition, the base station according to the above embodiments of the present invention may also have the following additional technical features:

[0010] In some embodiments, the main support includes a panel portion and a plurality of first reinforcing ribs, the plurality of first reinforcing ribs being connected to the inner wall surface of the panel portion, and the outer wall surface of the panel portion being configured as the outer appearance surface.

[0011] In some embodiments, the main support includes: a first panel, a second panel, an inner side panel, and a support plate. The first panel and the second panel are opposite each other in the front-rear direction and form the outer surface of the base station. The inner side panel is connected to the first panel and the second panel respectively and is arranged opposite to the mounting opening. The first panel, the inner side panel, and the second panel are connected to the support plate and surround the receiving cavity above the support plate.

[0012] In some embodiments, the main support further includes a plurality of second reinforcing ribs, which protrude from the upper wall surface of the support plate.

[0013] In some embodiments, the base station further includes a first decorative panel detachably connected to the main support frame and defining a bypass ventilation duct between the first decorative panel and the inner side panel.

[0014] In some embodiments, the inner side plate is provided with a flow port connecting the bypass ventilation duct and the receiving cavity, wherein,

[0015] The opening direction of the flow port extends in the left-right direction;

[0016] And / or, the inner side plate is provided with a sealing element for sealing the gap between the first decorative panel and the inner side plate.

[0017] In some embodiments, the first decorative panel is configured as an arc-shaped surface that bulges outward from the receiving cavity in the middle.

[0018] In some embodiments, the base station includes a second decorative panel that is detachably connected to the main support frame and covers the mounting port.

[0019] In some embodiments, the base station further includes a docking component connected to the upper end of the main support frame. The docking component has a main docking interface for docking with the dust cup of a cleaning device and a dust outlet communicating with the dust bag.

[0020] In some embodiments, the base station has a bypass ventilation duct that connects to the receiving cavity, and the docking member is provided with a secondary docking interface that connects to the bypass ventilation duct.

[0021] In some embodiments, a main support and a first decorative panel are provided, the first decorative panel covering the main support, the main support having a receiving cavity for accommodating a dust bag, a bypass ventilation duct being provided between the first decorative panel and the main support, and the dust bag receiving cavity communicating with the bypass ventilation duct.

[0022] In some embodiments, the main support has a first opening, a first decorative panel is disposed over the opening, and a bypass ventilation duct is defined between the first decorative panel and the first opening.

[0023] In some embodiments, the first decorative panel has a second opening, and the bypass ventilation duct is defined between the first opening and the second opening.

[0024] In some embodiments, the dust bag receiving cavity is arranged side by side with the bypass ventilation duct, and the side wall of the dust bag receiving cavity near the bypass ventilation duct is provided with an outlet communicating with the bypass ventilation duct.

[0025] In some embodiments, the outlet is located near the bottom of the dust bag.

[0026] In some embodiments, the opening direction of the flow port is oriented toward the first decorative panel.

[0027] In some embodiments, the dust bag receiving cavity has an installation port, and the base station further includes a second decorative panel that is detachably connected to the main support and covers the installation port.

[0028] In some embodiments, the mounting port is located on the side of the dust bag receiving cavity opposite to the bypass ventilation duct.

[0029] In some embodiments, the first decorative panel is configured to be integrally formed; the second decorative panel is configured to be integrally formed; and the main support frame is configured to be integrally formed.

[0030] The cleaning system according to an embodiment of the present invention includes: the aforementioned base station and cleaning equipment, wherein the cleaning equipment is detachably connected to the base station. Attached Figure Description

[0031] Figure 1 This is a schematic diagram of a base station according to an embodiment of the present invention.

[0032] Figure 2 This is a partial exploded view of the base station according to an embodiment of the present invention.

[0033] Figure 3 This is a partial schematic diagram of a base station according to an embodiment of the present invention.

[0034] Figure 4This is an exploded schematic diagram of a base station according to an embodiment of the present invention.

[0035] Figure 5 This is an exploded schematic diagram of a base station according to an embodiment of the present invention.

[0036] Figure 6 This is an exploded schematic diagram of a base station according to an embodiment of the present invention.

[0037] Figure 7 This is a cross-sectional schematic diagram of the cleaning system according to an embodiment of the present invention.

[0038] Figure label:

[0039] Base station 100, main support 10, outer surface 10a, receiving cavity 11, mounting port 111, panel 121, first reinforcing rib 122, first panel 131, second panel 132, inner side plate 133, overflow port 1311, support plate 134, second reinforcing rib 135, positioning part 14, first opening part 15, first decorative plate 21, second opening part 211, second decorative plate 22, bypass ventilation duct 31, sealing element 32, docking part 50, main docking interface 51, dust outlet 52, auxiliary docking interface 53, dust bag 60, mounting part 61, cleaning equipment 200, dust cup 210, air inlet duct 220, return air duct 230, suction device 230. Detailed Implementation

[0040] 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.

[0041] With the development of cleaning equipment technology, more and more cleaning equipment is equipped with base stations. Base stations can be used for the storage, charging, automatic dust collection, and cleaning and maintenance of cleaning equipment. In particular, the automatic dust collection function is designed so that the dust bag can collect the waste in the cleaning equipment, reducing the user's operational burden. Base stations typically require a structure independent of the casing to install the dust bag, making the base station structure relatively complex. Based on this, this utility model proposes a base station that, through structural optimization, can reduce the number of parts in the base station and improve the production and installation efficiency.

[0042] Combination Figure 1 and Figure 2 According to the first aspect of the present invention, the base station 100 includes: a main support 10, and an accommodating cavity 11 is formed on the inner side of the main support 10.

[0043] The main support 10 may also include a dust bag 60, which can be inserted into the receiving cavity 11. One side of the receiving cavity 11 has an installation port 111, and at least a portion of the outer surface of the main support 10 is configured as the outer surface 10a of the base station 100.

[0044] Specifically, the inner side of the main support 10 forms a receiving cavity 11, and the receiving cavity 11 has a mounting port 111 through which the dust bag 60 can be inserted. The mounting port 111 facilitates the replacement or cleaning of the dust bag 60. At least a portion of the outer surface of the main support 10 forms the outer surface 10a of the base station 100, combined with... Figure 1 As shown, the outer surface 10a 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 part of the main support 10 can serve as the outer shell of the base station 100, and the dust bag 60 is directly inserted into the inner side of the main support 10. Compared with the related technology, which requires the design of a structure independent of the main support 10 to install the dust bag 60, in the base station 100 of this utility model embodiment, the dust bag 60 is directly set on the main support 10 that can serve as at least a part of the outer surface of the base station. There is no need to set up additional structural components to form a cavity for accommodating the dust bag inside the support that serves as the outer surface. This can reduce the number of parts of the base station 100, optimize the production and installation process, improve production efficiency, and reduce the production cost of the base station 100.

[0045] According to the embodiment of the present utility model, at least a portion of the main support 10 is configured as the outer surface 10a of the base station 100, and the dust bag 60 is directly inserted into the receiving cavity 11 inside the main support 10. This can simplify the structure of the base station 100, reduce the number of parts of the base station 100, improve the production and installation efficiency of the base station 100, and reduce the production cost of the base station 100.

[0046] The main support 10 can be configured as a single piece. For example, the main support 10 can be integrally molded by injection molding, which can improve the structural strength of the main support 10, 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. At least a portion of the outer surface of the main support 10 is configured as the appearance surface 10a of the base station 100. For example, the front outer surface of the main support 10 can be configured as the appearance surface 10a of the base station 100; or the front and rear outer surfaces of the main support 10 can be configured as the appearance surface 10a of the base station 100; or the front, rear, and left outer surfaces of the main support 10 are configured as the appearance surface 10a of the base station 100. The appearance surface 10a constructed by the main support 10 in this application can also have other arrangements. This application does not list them all. Based on the above description, those skilled in the art can easily conceive of other arrangements of the appearance surface 10a.

[0047] Combination Figure 2 In some embodiments of this utility model, the main support 10 includes a panel portion 121 and a plurality of first reinforcing ribs 122. The plurality of first reinforcing ribs 122 are connected to the inner wall surface of the panel portion 121, and the outer wall surface of the panel portion 121 is configured as an outer surface 10a. The plurality of first reinforcing ribs 122 can improve the structural strength of the panel portion 121. In addition, the inner side of the panel portion 121 has a receiving cavity 11 for accommodating the dust bag 60. The plurality of first reinforcing ribs 122 can separate the dust bag 60 and the panel portion 121 to form an airflow channel between the panel portion 121 and the dust bag 60, which facilitates the flow of airflow in the base station 100. In addition, when there is too much dust or expansion in the dust bag 60, a gap is left between the dust bag 60 and the panel portion 121 to avoid blocking the airflow path.

[0048] For example, a fan may be built into the base station 100. When the fan is working, it generates a negative pressure airflow. The airflow is connected to the dust cup of the cleaning equipment through a sealed pipe and sucks the garbage into the dust bag 60. The clean airflow filtered by the dust bag 60 can be discharged to the outside of the base station 100. A plurality of first reinforcing ribs 122 are provided between the panel 121 and the dust bag 60 to separate the dust bag 60 and the panel 121 so as to facilitate the flow of airflow.

[0049] Of course, the base station 100 in this embodiment of the present invention may not be equipped with a fan. For example, the cleaning device 200 includes a suction device 230 and a return air duct 230. 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, negative pressure can be introduced into the base station 100 by means of the suction device 230 of the cleaning device 200, so that negative pressure is generated inside the base station 100. The negative pressure inside the base station 100 can clean and collect dirt from the dust cup 210 of the cleaning device 200, thereby realizing the self-cleaning of the cleaning device 200. The airflow inside the base station 100 flows back to the suction device 230 through the return air duct 230 of the cleaning device 200, and is discharged from the suction device 230 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.

[0050] For example, the cleaning device 200 may have a working mode and a self-cleaning mode. In the working mode, the suction device 230 of the cleaning device 200 is connected to the dust cup 210. Dust, hair, debris and other dirt on the working surface are sucked into the dust cup 210 through the air inlet duct 220. The dust cup 210 is in a closed state and filters the airflow. The clean airflow filtered by the dust cup 210 is discharged from the suction device 230 to the outside of the cleaning device 200. After the cleaning equipment 200 completes its cleaning work, it can be connected to the base station 100. In self-cleaning mode, the suction device 230 of the cleaning equipment 200 is connected to the return air duct 230, the dust discharge port of the dust cup 210 is opened and connected to the dust bag 60 of the base station 100, and the base station 100 is connected to the return air duct 230. Under the action of the suction device 230, a negative pressure is generated in the dust bag 60 of the base station 100, causing dust, debris, hair and other dirt in the dust cup 210 to be collected in the dust bag 60. The airflow in the base station 100 flows back to the suction device 230 through the return air duct 230 and is discharged to the outside of the cleaning equipment 200 through the suction device 230. By setting the first reinforcing rib 122, the dust bag 60 is separated from the panel part 121, leaving a gap between the dust bag 60 and the panel part 121 to avoid blocking the airflow path.

[0051] Combination Figure 2 Optionally, the panel portion 121 is located on the front and / or rear side of the main body support 10, the mounting port 111 is located on the left side of the main body support 10, and a plurality of first reinforcing ribs 122 are distributed along the vertical direction on the inner side of the panel portion 121. The first reinforcing ribs 122 extend along the horizontal direction, and at least a portion of the left edge of the first reinforcing rib 122 is inclined to the right as it extends toward the inner side of the receiving cavity 11. Specifically, the panel portion 121 is located on the front side of the main body support 10; or the panel portion 121 is located on the rear side of the main body support 10; or the panel portion 121 is located on both the front and rear sides of the main body support 10. The dust bag 60 can be inserted into the receiving cavity 11 from the mounting port 111 on the left side. The inclined left edge of the first reinforcing rib 122 can guide the installation of the dust bag 60, making it easier for the user to insert the dust bag 60 into the receiving cavity 11. In addition, multiple first reinforcing ribs 122 are distributed along the vertical direction and extend along the horizontal direction. On the one hand, they can effectively strengthen the structural strength of the panel portion 121, and on the other hand, they can effectively support the dust bag 60, so that the dust bag 60 is spaced apart from the panel portion 121 in both the vertical and horizontal directions.

[0052] Combination Figure 3In some embodiments of this utility model, the main support 10 includes: a first panel 131, a second panel 132, an inner side plate 133, and a support plate 134. The first panel 131 and the second panel 132 are opposite each other in the front-rear direction. The outer surfaces of the first panel 131 and the second panel 132 form the outer surface 10a of the base station 100. The inner side plate 133 is connected to the first panel 131 and the second panel 132 respectively and is arranged opposite to the mounting port 111. The first panel 131, the inner side plate 133, and the second panel 132 are connected to the support plate 134, and a receiving cavity 11 is formed around the support plate 134, which improves the overall structural strength of the main support 10 and facilitates the installation and removal of the dust bag 60 from the mounting port 111. In addition, the first panel 131 and the second panel 132 are arranged opposite each other in the front-to-back direction and form the outer surface 10a of the base station 100. That is, the first panel 131 and the second panel 132 are exposed and can serve as the front shell and rear shell of the base station 100. After the cleaning device 200 is connected to the base station 100, the cleaning device 200 and the first panel 131 can be opposite each other in the front-to-back direction, which simplifies the structure of the base station 100 and reduces the number of components of the base station 100.

[0053] Combination Figure 3 In some embodiments of this utility model, the main support 10 further includes a plurality of second reinforcing ribs 135, which protrude from the upper wall of the support plate 134. The second reinforcing ribs 135 can improve the structural strength of the support plate 134. In addition, the upper part of the support plate 134 has a receiving cavity 11 for accommodating the dust bag 60. The plurality of second reinforcing ribs 135 can separate the dust bag 60 and the support plate 134 to form an airflow channel between the support plate 134 and the dust bag 60, which facilitates the flow of air in the base station 100. When there is too much dust or expansion in the dust bag 60, the gap between the dust bag 60 and the support plate 134 can avoid blocking the airflow path.

[0054] For example, a plurality of second reinforcing ribs 135 may be distributed along the front-back direction on the upper wall surface of the support plate 134, and the second reinforcing ribs 135 extend along the vertical direction.

[0055] Combination Figure 4 In some embodiments of this utility model, the base station 100 further includes a first decorative panel 21, which is detachably connected to the main support 10 and defines a bypass ventilation duct 31 between itself and the inner side panel 133. The bypass ventilation duct 31 can be directly defined using the first decorative panel 21 and the main support 10, eliminating the need for additional structures. This simplifies the structure of the base station 100, reduces the number of components, improves production and installation efficiency, and lowers production costs. Furthermore, the detachable connection between the first decorative panel 21 and the main support 10 facilitates subsequent cleaning and maintenance of the bypass ventilation duct 31.

[0056] Furthermore, the inner side plate 133 is provided with an outlet 1311 connecting the bypass ventilation duct 31 and the receiving cavity 11. Specifically, when the base station 100 performs self-cleaning on the cleaning equipment 200, the airflow in the dust bag 60 can enter the bypass ventilation duct 31 through the outlet 1311 and be discharged to the outside of the base station 100. By providing the outlet 1311 in the inner side plate 133, it is not necessary to open a complex flow channel structure in the main support 10. The bypass ventilation duct 31 and the receiving cavity 11 are directly fluidly connected through the outlet 1311, simplifying the structure of the main support 10 and facilitating the processing and forming of the main support 10.

[0057] The overflow port 1311 is located below the inner side plate 133, which facilitates the generation of negative pressure inside the dust bag 60, increases the airflow path, and improves the cleaning effect of the base station 100.

[0058] For example, the base station 100 may not have a motor. Negative pressure can be introduced into the base station 100 using the suction device 230 of the cleaning device 200, creating negative pressure within the base station 100. This negative pressure cleans the dust cup 210 of the cleaning device 200, collecting the dirt in the dust bag 60, thus achieving self-cleaning of the cleaning device 200. The dust bag 60 can be made of a filter material that allows airflow. After flowing out of the dust bag 60, the airflow can enter the bypass ventilation duct 31 through the outlet 1311 and then flow back to the cleaning device 200, before being discharged from the suction device 230 to the outside of the cleaning device 200. This simplifies the structure of the base station 100 and reduces noise during operation.

[0059] In addition, the inner side plate 133 has an open portion on the side away from the receiving cavity 11, and the first decorative plate 21 has an overlapping portion on the side facing the receiving cavity 11. When the first decorative plate 21 is connected to the inner side plate 133, the open portion and the overlapping portion are opposite to each other in the left and right direction and together define the bypass ventilation duct 31, which simplifies the structure of the base station 100 and reduces the number of components of the base station 100.

[0060] Combination Figure 3 Optionally, the flow outlet 1311 and the second reinforcing rib 135 are arranged opposite each other in the left-right direction, and the height dimension of the flow outlet 1311 in the vertical direction is smaller than the height dimension of the second reinforcing rib 135 in the vertical direction. The second reinforcing rib 135 can support the dust bag 60 above the flow outlet 1311, which can prevent the flow outlet 1311 from being blocked when there is too much garbage in the dust bag 60, thus affecting the airflow and improving the smoothness of airflow during the self-cleaning process of the base station 100.

[0061] Combination Figure 3Optionally, at least a portion of the left edge of the second reinforcing rib 135 is inclined to the right as it extends toward the inside of the receiving cavity 11. For example, the dust bag 60 can be inserted into the receiving cavity 11 in a left-to-right direction. The inclined design of the second reinforcing rib 135 can guide the dust bag 60 into the receiving cavity 11, making it convenient for the user to install the dust bag 60.

[0062] Combination Figure 4 In some embodiments of this utility model, a sealing element 32 is provided on the inner side plate 133 to seal the gap between the first decorative plate 21 and the inner side plate 133. Specifically, the sealing element 32 can be arranged around the bypass channel 31. After the first decorative plate 21 is connected to the inner side plate 133, the sealing element 32 seals the gap between the first decorative plate 21 and the inner side plate 133 to prevent airflow leakage from affecting the cleaning effect of the base station 100 on the cleaning equipment 200.

[0063] For example, the inner side plate 133 may be provided with a positioning groove for the positioning seal 32, the seal 32 is disposed in the positioning groove, and the seal 32 can be interference-fitted with the positioning groove to improve the structural stability of the seal 32.

[0064] Combination Figure 4 In some embodiments of this utility model, the first decorative panel 21 is configured as an arc surface with the middle part protruding in the direction away from the receiving cavity 11, which facilitates increasing the flow area of ​​the bypass ventilation duct 31, reducing the resistance of airflow when passing through the bypass ventilation duct 31, and thus improving the self-cleaning effect of the cleaning equipment 200.

[0065] Combination Figure 5 In some embodiments of this utility model, the base station 100 includes a second decorative panel 22, which is detachably connected to the main support 10 and covers the mounting port 111. For example, when it is necessary to replace or clean the dust bag 60, the second decorative panel 22 can be removed and the dust bag 60 can be removed and installed from the mounting port 111, thereby improving the convenience of users replacing the dust bag 60.

[0066] The second decorative panel 22 can be connected to the left or right side of the main support 10, which allows users to easily install or remove the dust bag 60 from the left or right side of the base station 100.

[0067] For example, the second decorative panel 22 and the connecting bracket can be connected by snap-fit, which facilitates the disassembly and installation of the second decorative panel 22 and the connecting bracket. In addition, a sealing strip can be provided on the second decorative panel 22. When the second decorative panel 22 is connected to the connecting bracket, the sealing strip can seal the gap between the second decorative panel 22 and the connecting bracket, prevent airflow from leaking from the mounting port 111, and improve the sealing performance of the base station 100.

[0068] Combination Figure 2 and Figure 3In some embodiments of this utility model, the main support 10 includes a positioning part 14, and the dust bag 60 includes an installation part 61. The installation part 61 extends detachably into the positioning part 14. By providing the positioning part 14 on the main support 10, the dust bag 60 can be directly installed on the main support 10, simplifying the structure of the base station 100 and reducing the number of components of the base station 100.

[0069] Combination Figure 6 In some embodiments of this utility model, the base station 100 further includes a docking member 50, which is connected to the upper end of the main support 10. The docking member 50 has a main docking interface 51 for docking with the dust cup 210 of the cleaning device 200 and a dust outlet 52 communicating with the dust bag 60. Exemplarily, the main docking interface 51 can be used to dock with the dust cup 210 of the cleaning device 200 and communicate with the dust discharge port of the dust cup 210. The dust outlet 52 communicates with the dust bag 60. After the cleaning device 200 is docked with the base station 100, the dirt in the dust cup 210 can be collected in the dust bag 60 through the docking member 50.

[0070] Furthermore, the base station 100 has a bypass ventilation duct 31, which connects to the receiving cavity 11. The docking member 50 is provided with a secondary docking interface 53 that connects to the bypass ventilation duct 31. For example, the cleaning equipment 200 may be provided with a return docking interface and a return air duct 230 that connects to the return docking interface. The secondary docking interface 53 facilitates docking between the base station 100 and the return docking interface of the cleaning equipment 200, so that the suction device 230 of the cleaning equipment 200 can generate negative pressure inside the base station 100, and the airflow of the base station 100 can return to the cleaning equipment 200 through the secondary docking interface 53.

[0071] Specifically, after the cleaning device 200 is connected to the base station 100, in the self-cleaning mode, the dust discharge port of the dust cup 210 is opened, so that the dust cup 210 is connected to the dust bag 60 through the docking part 50. The dust bag 60 is fluidly connected to the bypass ventilation duct 31 through the overflow port 1311. The bypass ventilation duct 31 is fluidly connected to the return air duct 230 of the cleaning device 200 through the auxiliary docking interface 53. At this time, the airflow direction between the cleaning device 200 and the base station 100 is: air inlet duct 220 of the cleaning device 200 — dust cup 210 — dust bag 60 — bypass ventilation duct 31 — return air duct 230 — suction device 230.

[0072] Combination Figure 2 and Figure 4According to a second aspect embodiment of the present invention, a base station 100 includes a main support 10 and a first decorative panel 21. The first decorative panel 21 covers the main support 10. The main support 10 has a receiving cavity 11 for accommodating a dust bag 60. A bypass ventilation duct 31 is provided between the first decorative panel 21 and the main support 10, and the receiving cavity 11 communicates with the bypass ventilation duct 31. By directly defining the bypass ventilation duct 31 using the first decorative panel 21 and the main support 10, 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.

[0073] Specifically, by defining a bypass ventilation duct 31 between the main support 10 and the first decorative panel 21, and by connecting the bypass ventilation duct 31 to the receiving cavity 11, a motor can be omitted from the base station 100, and negative pressure can be generated in the base station 100 using the suction device 230 of the cleaning equipment 200. Figure 7 For example, the cleaning device 200 includes a suction device 230 and a return air duct 230. 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 230 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 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 230 works, generating negative pressure inside the base station 100. This causes dust, debris, hair, and other dirt in the dust cup 210 to be collected into the dust bag 60 of the base station 100. The airflow from the dust bag 60 flows back to the return air duct 230 of the cleaning device 200 through the bypass air duct 31 and is discharged from the suction device 230 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 receiving cavity 11 is connected to the bypass ventilation duct 31, which facilitates the airflow of the dust bag 60 to return to the cleaning equipment 200 through the bypass ventilation duct 31.

[0074] The first decorative panel 21 is detachably connected to the main support 10, which facilitates the cleaning and maintenance of the bypass ventilation duct 31 in the future.

[0075] Combination Figure 4Furthermore, the main support 10 has a first opening 15, and a first decorative panel 21 covers the first opening 15, defining a bypass ventilation channel 31 between the first decorative panel 21 and the first opening 15. The first decorative panel 21 and the first opening 15 cooperate to define the bypass ventilation channel 31, simplifying the structure of the base station 100 and avoiding the need for complex flow channel structures within the main support 10. For example, the main support 10 can be integrally formed by injection molding, and the first opening 15 can be formed directly during the manufacturing process, eliminating the need for additional components on the main support 10.

[0076] Combination Figure 4 and Figure 6 Additionally, the first decorative panel 21 is provided with a second opening 211, and a bypass ventilation duct 31 is defined between the first opening 15 and the second opening 211. Exemplarily, the first decorative panel 21 can be integrally formed by injection molding, and the second opening 211 can be formed directly during the manufacturing process. By providing openings on both the first decorative panel 21 and the main support 10, the flow area of ​​the bypass ventilation duct 31 can be increased, reducing airflow resistance when passing through the bypass ventilation duct 31, thereby improving the self-cleaning effect of the cleaning equipment 200.

[0077] Combination Figure 4 and Figure 6 In some embodiments of this utility model, the receiving cavity 11 and the bypass ventilation duct 31 are arranged side by side, and the side wall of the receiving cavity 11 near the bypass ventilation duct 31 is provided with an outlet 1311 that connects to the bypass ventilation duct 31. Specifically, the outlet 1311 is opened on the side wall of the receiving cavity 11 to facilitate communication between the receiving cavity 11 and the bypass ventilation duct 31, thereby facilitating fluid communication between the dust bag 60 and the bypass ventilation duct 31, optimizing the airflow path within the base station 100, and avoiding the need for complex flow channel structures within the base station 100.

[0078] Combination Figure 4 and Figure 5 Furthermore, the outlet 1311 is located near the bottom of the dust bag 60. Specifically, the outlet 1311 is located closer to the bottom of the dust bag 60 than the top of the dust bag 60. For example, the base station 100 may be provided with a main interface 51 that interfaces with the cleaning device 200. The main interface 51 can be used to interface with the dust cup 210 of the cleaning device 200 and connect to the dust discharge port of the dust cup 210. The top of the dust bag 60 is close to the main interface 51, and the bottom of the dust bag 60 is located away from the main interface 51. When the suction device 230 of the cleaning device 200 is working, the base station 100 generates negative pressure. The airflow first passes through the top of the dust bag 60, and the outlet 1311 is closer to the bottom of the dust bag 60, which facilitates the generation of negative pressure inside the dust bag 60, increases the airflow path, and improves the cleaning effect of the base station 100.

[0079] Combination Figure 4In some embodiments of this utility model, the opening direction of the flow port 1311 is towards the first decorative plate 21. The flow port 1311 can be formed directly during the processing of the main body support 10, without the need to open a flow channel connecting the receiving cavity 11 and the bypass ventilation channel 31 in the main body support 10, which simplifies the structure of the main body support 10 and facilitates the processing and forming of the main body support 10.

[0080] Combination Figure 6 In some embodiments of this utility model, the receiving cavity 11 has an installation port 111, and the base station 100 further includes a second decorative plate 22. The second decorative plate 22 is detachably connected to the main support 10 and covers the installation port 111. Specifically, by setting the first decorative plate 21, the main support 10, and the second decorative plate 22, the base station 100 only requires three components to form the receiving cavity 11 and the bypass ventilation duct 31 within the base station 100, which simplifies the structure of the base station 100 and reduces the number of components in the base station 100.

[0081] Furthermore, the mounting port 111 is located on the side of the receiving cavity 11 opposite to the bypass ventilation duct 31. The dust bag 60 can be inserted into the receiving cavity 11 through the mounting port 111, which facilitates the replacement or cleaning of the dust bag 60. Specifically, a bypass ventilation duct 31 is provided between the first decorative panel 21 and the main support 10, and the second decorative panel 22 covers the mounting port 111 of the receiving cavity 11. The first decorative panel 21 and the second decorative panel 22 can be connected to opposite sides of the main support 10, making the structure of the base station 100 more symmetrical. Only three components are needed to construct the receiving cavity 11 and the bypass ventilation duct 31 within the base station 100, simplifying its structure. The dust bag 60 can be made of a filter material that allows airflow. After flowing out of the dust bag 60, the airflow enters the bypass ventilation duct 31 and then flows back to the cleaning equipment 200, and is discharged from the suction device 230 of the cleaning equipment 200 to the outside of the cleaning equipment 200.

[0082] In some embodiments of this utility model, the first decorative panel 21 is configured as a single piece. For example, the first decorative panel 21 can be integrally formed by injection molding, which can improve the structural strength of the first decorative panel 21, 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.

[0083] In some embodiments of this utility model, the second decorative panel 22 is configured as a single piece. For example, the second decorative panel 22 can be integrally formed by injection molding, which can improve the structural strength of the second decorative panel 22, 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.

[0084] In some embodiments of this utility model, the main support 10 is configured as a single piece. Exemplarily, the main support 10 can be integrally molded by injection molding, which can improve the structural strength of the main support 10, 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. Combined with... Figure 6 In some specific embodiments of this utility model, the cleaning device 200 includes a main support 10, a docking part 50 that docks with the dust cup 210 of the cleaning device 200, a first decorative plate 21 for the dust bag receiving cavity 11, and a second decorative plate 22 for sealing the bypass ventilation duct 31. The receiving cavity 11 is formed on the inner side of the main support 10, and the receiving cavity 11 has an installation port 111 for inserting a dust bag 60 into the receiving cavity 11. At least a portion of the outer surface of the main support 10 forms the outer surface 10a of the base station 100, and the main support 10 is configured as a single piece. That is, the dust bag 60 is directly installed on the main support 10 through the receiving cavity 11. Compared to existing base station 100 bodies that require a structure independent of the shell for installing components such as the dust bag 60, the base station 100 of this utility model embodiment reduces the number of parts in the base station 100 body, which helps to reduce the number of molds, optimize the production and installation process, and reduce costs.

[0085] The cleaning system 1000 according to an embodiment of the present invention includes the aforementioned base station 100 and cleaning device 200, wherein the cleaning device 200 is detachably connected to the base station 100.

[0086] For example, the cleaning equipment 200 may be a vacuum cleaner, a robot vacuum cleaner, a mite remover, a floor scrubber, etc.

[0087] In the description of this utility model, it should be understood that the terms "center", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", and "outer" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.

[0088] 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.

[0089] 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.

[0090] 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.

[0091] 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.

[0092] 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), characterized in that, include: The main support (10) and the dust bag (60) are provided. The inner side of the main support (10) is configured to form a receiving cavity (11) for accommodating the dust bag (60). One side of the receiving cavity (11) has an installation port (111). At least a portion of the outer surface of the main support (10) is configured as the outer surface (10a) of the base station (100).

2. The base station (100) according to claim 1, characterized in that, The main support (10) includes a panel portion (121) and a plurality of first reinforcing ribs (122), the plurality of first reinforcing ribs (122) being connected to the inner wall surface of the panel portion (121), and the outer wall surface of the panel portion (121) being configured as the outer appearance surface (10a).

3. The base station (100) according to claim 1, characterized in that, The main support (10) includes: a first panel (131), a second panel (132), an inner side panel (133), and a support plate (134). The first panel (131) and the second panel (132) are opposite each other in the front-back direction and form the outer surface (10a) of the base station (100). The inner side panel (133) is connected to the first panel (131) and the second panel (132) respectively, and is arranged opposite to the mounting port (111). The first panel (131), the inner side panel (133), and the second panel (132) are connected to the support plate (134) and surround the receiving cavity (11) above the support plate (134).

4. The base station (100) according to claim 3, characterized in that, The main support (10) also includes a plurality of second reinforcing ribs (135), which protrude from the upper wall of the support plate (134).

5. The base station (100) according to claim 3, characterized in that, The base station (100) also includes a first decorative panel (21), which is detachably connected to the main support (10) and defines a bypass ventilation channel (31) between itself and the inner side panel (133).

6. The base station (100) according to claim 5, characterized in that, The inner side plate (133) is provided with a flow port (1311) connecting the bypass ventilation duct (31) and the receiving cavity (11), wherein, The opening direction of the flow port (1311) extends in the left-right direction; And / or, the inner side plate (133) is provided with a sealing element (32) for sealing the gap between the first decorative plate (21) and the inner side plate (133).

7. The base station (100) according to claim 6, characterized in that, The first decorative panel (21) is configured as an arc surface with the center protruding in a direction away from the receiving cavity (11).

8. The base station (100) according to claim 1, wherein the base station (100) includes a second decorative panel (22), the second decorative panel (22) being detachably connected to the main support (10) and covering the mounting port (111).

9. The base station (100) according to claim 1, characterized in that, The base station (100) also includes a docking component (50), which is connected to the upper end of the main support (10). The docking component (50) has a main docking interface (51) for docking with the dust cup of the cleaning equipment and a dust outlet (52) for communicating with the dust bag (60).

10. The base station (100) according to claim 9, characterized in that, The base station has a bypass ventilation duct (31) that connects to the receiving cavity (11), and the docking member (50) is provided with a secondary docking interface (53) that connects to the bypass ventilation duct (31).

11. A base station (100), characterized in that, include: The main support (10) and the first decorative panel (21) are provided. The first decorative panel (21) covers the main support (10). The main support (10) is provided with a receiving cavity (11) for accommodating the dust bag (60). A bypass ventilation channel (31) is provided between the first decorative panel (21) and the main support (10). The receiving cavity (11) is connected to the bypass ventilation channel (31).

12. The base station (100) according to claim 11, characterized in that, The main support (10) has a first opening (15), the first decorative panel (21) covers the first opening (15), and the first decorative panel (21) and the first opening (15) define the bypass ventilation channel (31).

13. The base station (100) according to claim 12, characterized in that, The first decorative panel (21) is provided with a second opening (211), and the bypass ventilation duct (31) is defined between the first opening (15) and the second opening (211).

14. The base station (100) according to claim 11, characterized in that, The receiving cavity (11) and the bypass ventilation duct (31) are arranged side by side, and the side wall of the receiving cavity (11) near the bypass ventilation duct (31) is provided with an outlet (1311) that communicates with the bypass ventilation duct (31).

15. The base station (100) according to claim 14, characterized in that, The outlet (1311) is located near the bottom of the dust bag (60).

16. The base station (100) according to claim 14, characterized in that, The opening of the overflow port (1311) faces the first decorative panel (21).

17. The base station (100) according to claim 11, characterized in that, The receiving cavity (11) has an installation port (111), and the base station (100) further includes a second decorative panel (22), which is detachably connected to the main support (10) and covers the installation port (111).

18. The base station (100) according to claim 17, characterized in that, The mounting port (111) is located on the side of the receiving cavity (11) away from the bypass ventilation duct (31).

19. The base station (100) according to claim 17, characterized in that, The first decorative panel (21) is configured as a single piece; the second decorative panel (22) is configured as a single piece; and the main support (10) is configured as a single piece.

20. A cleaning system (1000), characterized in that, include: The base station (100) according to any one of claims 1-19; A cleaning device (200) is detachably docked with the base station (100).

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