RU2802360C1 - Docking station, cleaning device and cleaning system - Google Patents

Abstract

FIELD: docking stations.

SUBSTANCE: docking station includes a station body and a fluid supply unit. The station body has a docking area and a guide assembly (10) on the side of the station body. The guide assembly (10) is located in the docking area. The guide assembly (10) is configured for guide connection with the mating assembly (40) of the cleaning device. The fluid supply unit is located on the station body and includes a connector for fluid supply. The fluid connector has a fluid outlet oriented toward the docking area. The fluid outlet is configured to mate and communicate with the harvester connector while guiding the connection between the guide assembly (10) and the mating assembly (40).

EFFECT: solving the problem that the accurate alignment is difficult when a conventional docking station replenishes the cleaning device with washing liquid, which leads to a long liquid replenishment time and affects the cleaning efficiency.

20 cl, 10 dwg

Description

TECHNICAL FIELD

[0001] The present invention relates to the field of cleaning tools and, in particular, to a docking station, a cleaning device and a cleaning system.

BACKGROUND OF THE ART

[0002] A typical household cleaning system generally includes a docking station and a cleaning device, wherein the docking station can replenish the cleaning device with cleaning liquid, such as detergent water, so that the cleaning device can continuously perform cleaning. However, when the conventional docking station supplies liquid to the cleaning device, the cleaning device is difficult to accurately align with the docking station, which usually causes water leakage, so that replenishing the cleaning device with cleaning liquid takes a long time, resulting in poor cleaning efficiency.

SUMMARY OF THE INVENTION

[0003] Thus, the technical problem to be solved by the present invention is that accurate alignment is difficult when a conventional docking station replenishes the cleaning device with cleaning liquid, resulting in a long liquid replenishment time and affecting cleaning efficiency.

[0004] To solve the above technical problem, embodiments of the present invention according to the first aspect provide a docking station for use with a cleaning device, comprising: a station body having a docking area and a guide assembly on a side of the station body, wherein the guide assembly is located in the docking area areas, wherein the docking area is configured to receive a cleaning device, and the guide assembly is configured to guide connection with a mating assembly of the cleaning device; and a fluid supply assembly on the station body comprising a fluid supply connector, wherein the fluid supply connector has a fluid outlet channel oriented toward the docking area. The fluid outlet is configured to interface with and communicate with the cleaning device connector at a guide connection between the guide assembly and the mating assembly.

[0005] Optionally, the guide assembly includes a first guide structure, the docking area has an open side and is configured to receive a cleaning device through the open side, and the first guide structure includes a guide protrusion that extends from the side of the station body where the docking region is located to the open side docking area.

[0006] Optionally, the guide projection is tapered, and the cross-section of the guide projection is reduced, in a direction from the side of the station body where the docking region is located toward the open side of the docking region.

[0007] Optionally, the guide assembly includes a second guide structure located at the bottom of the mating region and configured to guide connection with a second mating structure of the mating assembly.

[0008] Optionally, the station body includes a base and a flushing bracket configured to be detachable from the base, wherein a docking area is defined by the base, the flushing bracket is located on one side of the docking region, and a second guide structure is located on the flushing bracket.

[0009] Optionally, the flushing bracket includes a filter, a docking area receives at least a portion of the filter, and a second guide structure is located on the filter.

[0010] Optionally, the second guide structure includes one of the guide projection and the guide groove and is configured to guide connection with a second mating structure including the other of the guide projection and the guide groove.

[0011] Optionally, the flushing bracket surrounds one side of the docking area, the filter is shaped like a reservoir and extends from the side of the flushing bracket into the docking region, the filter has an opening facing downwards with the recess and includes a plurality of filter strips spaced in the opening, and the gap between two adjacent filter strips forms a filter channel, and the second guide structure is a guide projection that projects outward from the bottom of the filter.

[0012] Optionally, the docking station also includes a sealing element having a first end and a second end disposed opposite each other in a length direction of the sealing element, wherein the first end of the sealing element is seated on the fluid supply connector and the second end of the sealing element is configured to receive at least a portion of a cleaning device connector and allowing said connector to be connected to a fluid supply connector when the cleaning device is parked in the docking area. The second end of the sealing element includes a plurality of sealing ribs projecting in a radial direction of the sealing element, the plurality of sealing ribs spaced along the length of the sealing element and having a protrusion height that sequentially increases from the second end of the sealing element to the first end of the sealing element.

[0013] Optionally, the fluid supply assembly also includes a fluid supply bracket connected to the station body, the station body has a through hole, and a fluid supply connector is located on the fluid supply bracket and extends through the through hole into the docking area.

[0014] Optionally, the fluid supply assembly also includes an elastic extension member having two ends connected to the fluid supply bracket and the fluid supply connector, respectively.

[0015] Embodiments of the present invention according to the second aspect provide a cleaning device for use in conjunction with a docking station in accordance with embodiments of the present invention according to the first aspect, wherein the cleaning device comprises: a cleaning device housing including a mating assembly on the side of the housing, wherein the mating unit is configured to guide connection with the guide unit of the docking station; and a fluid passage assembly on the body of the cleaning device, comprising a connector configured to dock and communicate with the fluid supply connector of the docking station. The harvesting device is configured to enter the docking area of the docking station, and the connector is configured to dock and communicate with the fluid outlet port of the fluid supply connector of the docking station at a guide connection between the guide assembly and the mating assembly.

[0016] Optionally, the mating assembly includes a first mating structure configured to be guide coupled to the first guide structure of the guide assembly. The direction in which the cleaning device enters the docking area of the docking station is the forward direction of the cleaning device, and the side of the cleaning device housing where the mating assembly is located is located opposite the docking station in the forward direction of the cleaning device. The first mating structure includes a guide recess configured as a recess on the side of the cleaning device housing where the mating assembly is located.

[0017] Optionally, the cross-section of the guide recess is increased in the forward direction of the cleaning device.

[0018] Optionally, the cleaning device also includes a sensor that is located at the bottom of the guide recess. The sensor is configured to be activated by the first docking station guide structure to send a detection signal when the cleaning device is parked in the docking area of the docking station.

[0019] Optionally, the mating assembly also includes a second mating structure located in a lower portion of the cleaning device body and configured to be guide coupled to the second docking station guide structure.

[0020] Optionally, the connector includes a connecting pipe configured to communicate with the fluid supply connector, and a receiving portion at an end of the connecting pipe, wherein at least a portion of the connecting pipe extends into the receiving portion.

[0021] Embodiments of the present invention according to a third aspect provide a cleaning system comprising a docking station according to embodiments of the present invention according to a first aspect and a cleaning device according to embodiments of the present invention according to a second aspect.

[0022] Optionally, the cleaning system also includes a pump housing that communicates with a cleaning device connector, wherein the pump body, the fluid supply connector and the cleaning device connector are configured to form a suction channel when the cleaning device connector is mated and in communication with the supply connector docking station fluids.

[0023] Optionally, the pump housing is located in the cleaning device.

[0024] The technical solution according to the present invention has the following advantages.

[0025] The docking station according to the present invention includes a station body and a fluid supply unit. The station body has a docking area. When the cleaning device needs to be refilled with cleaning liquid, the cleaning device can drive into the docking area of the docking station to replenish with cleaning liquid. The station body includes a guide assembly configured to be guide coupled to a mating cleaning device assembly such that when the cleaning device is driven into the docking area, the cleaning device can enter the docking area to quickly and smoothly park in place when the guide assembly and the mating assembly are guidedly coupled . Moreover, with the guide connection of the guide unit and the mating unit, the liquid supply connector of the station body can be well mated and connected with the connector of the cleaning device, so that the liquid can be properly supplied to the cleaning device, and the liquid replenishment channel can be formed quickly and efficiently, which significantly increases the efficiency of replenishing the cleaning device with liquid and, therefore, provides high overall cleaning efficiency.

BRIEF DESCRIPTION OF THE DRAWINGS

[0026] In order to more clearly describe the technical solutions of the embodiments of the present invention or the prior art, the following will briefly introduce the accompanying drawings used in describing the embodiments of the invention or the prior art. It will be appreciated that the accompanying drawings in the following description represent only some embodiments of the present invention, and those skilled in the art can obtain other drawings based on these drawings without creative effort.

[0027] FIG. 1 is a partial schematic diagram of a cleaning system in accordance with an embodiment of the present invention.

[0028] FIG. 2 is a schematic representation of the cleaning system shown in FIG. 1, disassembled.

[0029] FIG. 3 is a schematic cross-sectional view of the cleaning system shown in FIG. 1.

[0030] FIG. 4 is an enlarged schematic view of part A shown in FIG. 2.

[0031] FIG. 5 is another schematic sectional view of the cleaning system shown in FIG. 1.

[0032] FIG. 6 is another schematic sectional view of the cleaning system shown in FIG. 1.

[0033] FIG. 7 is an enlarged schematic view of the connection between the connector and the fluid connector shown in FIG. 6.

[0034] FIG. 8 is a schematic view of the cleaning device shown in FIG. 1.

[0035] FIG. 9 is a schematic cross-sectional view of the cleaning device shown in FIG. 8.

[0036] FIG. 10 is a schematic view of the docking station shown in FIG. 1.

DETAILED DESCRIPTION OF THE INVENTION

[0037] The technical solutions according to the present invention will be described clearly and in detail below with reference to the accompanying drawings. It will be appreciated that the described embodiments represent some, but not all, embodiments of the invention. The present invention will be described in detail below with reference to the accompanying drawings and embodiments thereof. It should be noted that embodiments of the invention and features of embodiments of the invention can be combined with each other.

[0038] It should be noted that terms such as “first” and “second” used in the description, claims and drawings are intended to distinguish like objects, but are not intended to describe a specific sequence or order.

[0039] As used herein, terms indicating orientation or direction such as "up", "down", "top", "bottom" generally refer to the orientation or direction shown in the drawings, or to the component itself being oriented vertically, perpendicularly or in the direction of gravity unless otherwise specified. Likewise, for ease of understanding, the terms "internal" and "external" in the description refer to the internal and external portions of each component. The above terms are not intended to limit the present invention.

[0040] Embodiments of the present invention provide a docking station 100. The docking station 100 may be configured to automatically replenish the cleaning device 200 with cleaning fluid to allow the cleaning device 200 to continuously perform cleaning. As shown in FIG. 1-4, the docking station 100 includes a station body 1 and a fluid supply unit 2. The station housing 1 includes a docking area 15 on the side of the station housing 1, that is, on the side facing the cleaning device 200 when the cleaning device 200 is driven into the docking station 100. For example, the docking region 15 may be a recess or cavity on the side of the housing 1 station. The docking area 15 may be used to receive the cleaning device 200 so that the docking station 100 can replenish the cleaning device 200 with cleaning fluid when the cleaning device 200 is parked in the docking area 15. The docking body 1 also includes a guide assembly 10 on the side where the docking area 15 is located. , and the guide assembly 10 is located in the docking area 15 (for example, in the rear part of the docking area 15, which will also be discussed below). That is, the guide assembly 10 is located on the side of the docking body 1 where the docking area 15 is located, and at the rear of the docking region 15. The guide assembly 10 is configured to guide connection with the mating assembly 40 of the cleaning device 200. In this case, the guide connection of the two elements means , that two elements come into contact in the direction of their movement, for the direction of nodes involving two elements. The liquid supply unit 2 is located on the station body 1 (for example, on the other opposite side of the station body 1, that is, on the side facing away from the docking area 15) and is configured to supply washing liquid. In particular, the liquid supply unit 2 includes a liquid supply connector 21. The liquid outlet of the fluid supply connector 21 is located towards the docking area 15. When the cleaning device 200 needs to be refilled with cleaning liquid, the cleaning device 200 can be inserted into the docking area 15, and when the guide assembly 10 and the mating assembly 40 are guided together, the liquid outlet is The liquid supply connector 21 may be smoothly coupled to and communicate with the connector 51 of the cleaning device 200 to transfer washing liquid to the cleaning device 200 to effect automatic replenishment of the cleaning liquid. Thanks to the guide connection of the guide assembly 10 and the mating assembly 40, the fluid supply connector 21 and the connector 51 can be quickly and accurately aligned when connected. Therefore, the liquid replenishment channel can be formed quickly and reliably, which improves the liquid replenishment efficiency of the cleaning device 200 and ensures high overall cleaning efficiency.

[0041] In an embodiment of the invention, as shown in FIG. 2 and fig. 10, the guide assembly 10 includes a first guide structure 11, a mating assembly 40 of the cleaning device 200 includes a first mating structure 41, and at least one side of the mating area 15 is open. Upon entering the docking area 15, the cleaning device 200 may enter the docking area 15 from the open side of the docking area 15 so as to dock with the docking station 100. Specifically, the first guide structure 11 includes a guide projection 111 that protrudes from the side of the station body 1, where the docking area 15 is located, into the docking area 15 and extends to the open side. The shape of the docking area 15 is approximately the same as the shape of the cleaning device 200. For example, when the cleaning device 200 is a round brush, the docking area 15 may be approximately circular in shape. During normal operation of the docking station 100, the cleaning device 200 enters the docking area 15 from the front side of the station housing 1. That is, the open side is at the front of the docking area 15, the guide assembly 10 is at the rear of the docking area 15, and the guide protrusion 111 extends in a front-to-back direction to guide the entrance of the cleaning device 200 so that the cleaning device 200 can be accurately positioned at a predetermined position in the mating region 15 with the correct angular orientation, and therefore the liquid supply connector 21 and the connector 51 can be well mated and connected. The following is a description of the orientation and direction of the docking station 100. Unless otherwise indicated, by way of example, the open side is at the front of the docking area 15.

[0042] In addition, as shown in FIG. 3 and fig. 4, the guide projection 111 is tapered. The cross-section of the guide protrusion 111 decreases in the direction from the side of the station body 1 where the docking area 15 is located to the open side, that is, in the direction from the rear of the station body 1 to the front, so that the insertion of the guide protrusion 111 into the first mating structure 41 for guiding happens smoothly. Moreover, the first mating structure 41 includes a guide groove 411, and when the guide groove 111 is inserted into the guide groove 411 of the cleaning device 200, the docking station 100 fits tightly to the cleaning device 200, and the cleaning device 200 does not slide (in the transverse direction, that is, perpendicular to the fore-aft direction) relative to the docking station 100 and is therefore stable.

[0043] In some embodiments, a plurality of guide projections 111 may be provided. The plurality of guide projections 111 are located in the left-right direction of the station body 1. Also provided are a plurality of guide recesses 411 that correspond one-to-one with the plurality of guide protrusions 111. The docking station 100 and the cleaning device 200 are connected by a guide connection between the plurality of guide protrusions 111 and the plurality of guide recesses 411, so that the cleaning device 200 is positioned accurately, and thus , the liquid supply connector 21 and the connector 51 are quickly connected to each other.

[0044] In some embodiments of the invention, as shown in FIG. 6 and fig. 10, the guide assembly 10 includes a second guide structure 12, and the mating assembly 40 includes a second mating structure 42. The second guide structure 12 is configured to guide connection with the second mating structure 42 of the cleaning device 200. Specifically, the second guide structure 12 is located at the bottom docking area 15 to guide the cleaning device 200 at the bottom.

[0045] Specifically, as shown in FIG. 2, the station body 1 includes a base 13 and a flushing bracket 14. The flushing bracket 14 is detachably attached to the base 13. The docking area 15 is defined by the base 13. The flushing bracket 14 is located on the rear side of the docking region 15. The second guide structure 12 is on the flushing bracket 14 and protrudes from the flushing bracket 14 so as to be below the docking region 15. That is, the second guide structure 12 is located at the bottom of the docking area 15. When inserted into the docking area 15, the cleaning device 200 is guided to enter a predetermined position with the correct angular orientation through the guide connection of the second guide structure 12 at the bottom of the docking area 15 and the second mating structure 42 of the cleaning device 200 so that that the fluid supply connector 21 and the connector 51 fit and communicate well.

[0046] In some embodiments of the invention, as shown in FIG. 5, one of the second guide structure 12 and the second mating structure 42 is a guide projection 121, and the other of the second guide structure 12 and the second mating structure 42 is a guide groove 421 to be in guide connection with the guide projection 121. Through the guide connection of the guide protrusion 121 and the guide chute 421, the cleaning device 200 is guided to a predetermined position to ensure an accurate parking position of the cleaning device 200.

[0047] In addition, the docking station 100 may be configured to replenish the cleaning device 200 with cleaning fluid, as well as to flush the cleaning parts of the cleaning device 200 when the cleaning device 200 is parked in the docking area 15. In particular, the base 13 includes a reservoir for located in the docking area 15. To reuse the spent fluid in the flush tank with which the wash parts were washed, the flush bracket 14 includes a filter 141. The filter 141 extends at least partially into the docking area 15, protruding from the bottom of the tank. flushing, to filter and reuse the waste liquid in the flushing tank.

[0048] In some embodiments of the invention, as shown in FIG. 2 and fig. 10, the flushing bracket 14 is shaped like an arc and surrounds the rear side of the docking area 15. The filter 141 is located on the side of the flushing bracket 14 facing the docking area 15. The filter 141 is shaped like a tank and has an opening facing downward toward the bottom of the flushing tank. . The filter 141 includes a plurality of filter strips spaced apart from each other in the opening, and a gap between each two adjacent filter strips defines a filter channel so that waste liquid can enter the filter 141 through the filter channel to be filtered. The second guide structure 12 is formed as a guide projection portion 121 and projects outward from the bottom of the filter 141, that is, projects upward. In addition, the second mating structure 42 includes a guide chute 421. When the cleaning device 200 is driven into the docking station 100, the guide protrusion 121 may fit precisely into the guide chute 421 of the cleaning device 200 to determine the direction of movement of the cleaning device 200.

[0049] The docking station 100 may include only one of the first guide structure 11 and the second guide structure 12. Of course, the docking station 100 may include both the first guide structure 11 and the second guide structure 12. With two guide structures, alignment is accurate when the cleaning device 200 slides into the docking station 100, and the liquid supply connector 21 and the connector 51 are quickly mated to provide a good connection, which improves cleaning efficiency. For example, the guide projection portion 121 of the docking station 100 is located in the middle of the flushing bracket 14, and two guide projections 111 are provided. The two guide projections 111 are arranged symmetrically on the two sides of the guide projection portion 121, respectively. When the cleaning device 200 enters the docking area 15, by means of the guide protrusion 111 and the guide recess 411, the cleaning device 200 can be limited and guided in the left-right direction of the station body 1 and in the moving direction of the cleaning device 200, and with the guide connection of the guide projection portion 121 and the guide chute 421, the cleaning device 200 can be limited and guided in the up-down direction of the station body 1 and in the moving direction of the cleaning device 200. The cleaning device 200 can be limited in all directions after entering the docking area 15. Thus, it can Alignment accuracy can be guaranteed, which ensures a reliable connection between the fluid supply connector 21 and the connector 51.

[0050] In addition, in order to ensure reliable sealing at the junction between the liquid supply connector 21 and the connector 51, the docking station 100 also includes a sealing member 3. Specifically, one end of the sealing member 3 is placed on the end of the liquid supply connector 21, where there is an outlet channel for liquid. When the cleaning device 200 is parked in the docking area 15, at least a portion of the connector 51 of the cleaning device 200 may extend into the sealing member 3 from the other end of the sealing member 3 to communicate with the fluid supply connector 21.

[0051] For example, the sealing member 3 has a first end and a second end located opposite each other along the length direction of the sealing member 3. The length direction here may refer to the direction from the fluid supply connector 21 to the connector 51. Specifically, the length direction of the sealing member 3 in Fig. 4 may refer to the forward-backward direction of the station body 1. The first end of the first sealing member 3 is put on the liquid supply connector 21, and the second end of the first sealing member 3 is connected to the connector 51, so that the connection between the liquid supply connector 21 and the connector 51 is sealed by the sealing member 3 to prevent water leakage at the joint. .

[0052] As shown in FIG. 2 and fig. 4, the fluid supply assembly 2 includes a fluid supply bracket 22 connected to both the base 13 and the flushing bracket 14 of the station body 1. The base 13 of the station body 1 has a through hole, and the fluid supply connector 21 is located on the flushing bracket 22 for liquid supply and can pass through the through hole into the docking area 15 for docking (ie, through the connector 51) with the cleaning device 200. Of course, the liquid supply unit 2 also includes a liquid storage tank in which the cleaning liquid is stored. In some embodiments of the invention, the fluid supply connector 21 is connected to a fluid supply source. For example, the liquid supply connector 21 can be directly connected to a water faucet so that it is convenient to replenish liquid (in this case, for example, water), and then there is no need for a liquid storage tank. Therefore, the docking station 100 may have a small volume.

[0053] In addition, to ensure reliable connection, the liquid supply unit 2 also includes an elastic extension member 23. The elastic extension member 23 has two ends in its retraction direction, which are respectively connected to the liquid supply bracket 22 and the liquid supply connector 21, so that the liquid supply connector 21 and the connector 51 have a flexible connection when mated to each other, which prevents the liquid supply connector 21 from being damaged. The elastic retractable member 23 may be a retractable spring. Two retractable springs may be located on two sides of the fluid supply connector 21, respectively. Moreover, after the liquid supply connector 21 passes through the through hole of the station body 1, the liquid supply connector is located just in the middle of the two guide projections 111, so that the liquid supply connector 21 will not deviate to either side during docking, and This means it will be stable.

[0054] Embodiments of the present invention also provide a cleaning device 200. The cleaning device 200 is configured to be used in conjunction with a docking station 100. Specifically, as shown in FIG. 3 and fig. 4, the cleaning device 200 includes a cleaning device body 4 and a liquid passage unit 5. The cleaning device housing 4 includes a mating assembly 40 on the side of the cleaning device housing 4, that is, on the side opposite the docking station 100 when the cleaning device 200 is driven into the docking station 100. The mating assembly 40 is configured to guide connection with the docking device guide assembly 10. station 100. The fluid passage unit 5 is located on the cleaning device body 4 and includes a connector 51. The connector 51 is docked and in communication with the fluid supply connector 21 of the docking station 100 to replenish the cleaning device 200 with cleaning fluid. By using the guide connection of the guide assembly 10 and the mating assembly 40, the cleaning device 200 can be smoothly inserted into the docking area 15 of the docking station 100, and the connector 51 can be mated and communicated with the fluid outlet of the fluid connector 21 of the docking station 100, so that the fluid can be introduced into the connector 51 through the connector 21 to supply liquid from the liquid storage reservoir or liquid supply source to the cleaning storage device 200. Thus, the cleaning device 200 can perform cleaning after replenishing the cleaning liquid and therefore has high cleaning efficiency.

[0055] It is understood that the cleaning device 200 may also include a removable liquid storage container or liquid storage chamber in the cleaning device body 4. The cleaning liquid is introduced through the connector 51 into the liquid storage chamber or liquid storage container so that the cleaning device 200 uses it during cleaning.

[0056] In an embodiment of the invention, as shown in FIG. 2 and fig. 8, the mating assembly 40 includes a first mating structure 41 configured to be guide coupled to the first guide structure 11 of the docking station 100. The direction in which the cleaning device 200 enters the docking area 15 of the docking station 100 is the forward direction. The first mating structure 41 includes a guide recess 411 formed as a recess on the front side of the cleaning device body 4, that is, on the side of the cleaning device body 4 located opposite the station body 1 in the forward direction of the cleaning device 200, that is, a part of the front side of the housing 4 of the cleaning device is recessed to form a guide groove 411, so that the guide projection 111 at the rear of the docking area 15 of the docking station 100 can be inserted into the guide groove 411 for guidance.

[0057] It should be noted that the “front” and “rear” of the cleaning device 200 and the docking station 100 are defined separately herein. For example, the "front" of the cleaning device 200 is opposite the "front" of the docking station 100, as shown in FIG. 9 and 10.

[0058] In some embodiments of the invention, as shown in FIG. 8 and fig. 9, the cross-section of the guide groove 411 increases in the forward direction of the cleaning device 200. The guide groove 411 is shaped like the guide protrusion 111. As shown in FIG. 9, the guide groove 411 is shaped like a funnel, and the flared end of the guide groove 411 is oriented outward from the cleaning device body 4. When the cleaning device 200 is driven into the docking area 15, the guide protrusion 111 and the guide groove 411 are tightly coupled so that the cleaning device 200 becomes stable and less wobbly in the docking area 15.

[0059] In addition, to enable intelligent fluid replenishment of the cleaning device 200, as shown in FIG. 8, the cleaning device 200 also includes a sensor 6 located at the bottom of the guide recess 411. When the cleaning device 200 is parked in place in the docking area 15 of the docking station 100, the guide protrusion 111 of the docking station 100 may abut the sensor 6 to activate the sensor 6 to send detection signal. In some embodiments, the cleaning device housing 4 may also include a controller and a pump housing. The controller is electrically connected to both sensor 6 and the pump housing. The pump body communicates with the connector 51. When the cleaning device 200 is parked in the docking area 15, and the guide 111 abuts the sensor 6, that is, the cleaning device 200 is parked in place, the sensor 6 can send a detection signal to the controller, and the controller can control the pump, so that it begins to operate, and the pump can provide suction force so that liquid at the docking station 100 can flow into the connector 51 from the liquid supply connector 21 of the docking station 100 and thus flow into the storage cleaning device 200 to realize automatic liquid replenishment. .

[0060] In some embodiments of the invention, the mating assembly 40 may include a second mating structure 42. The second mating structure 42 is located in the lower portion of the cleaning device housing 4 and is configured for guide connection with the second guide structure 12 of the docking station 100. When using the guide connection of the second mating structure 42 and the second guide structure 12, the cleaning device 200 can be precisely parked in the docking area 15. Specifically, as shown in FIG. 8, the second mating structure 42 includes a guide groove 421, which is located at the front end of the lower part of the cleaning device body 4 and extends along the back-and-forth direction of the cleaning device body 4. That is, the guide groove 421 is formed by removing a front side part and a bottom side part of the cleaning device body 4, the front side part of the cleaning device body 4 and the bottom side part of the cleaning device body 4 being adjacent. The guide channel 421 is configured to be in guide connection with the guide projection 121 of the docking station 100.

[0061] It is clear that these two embodiments of the invention can be combined. Due to the plurality of guide connection structures, the cleaning device 200 can be precisely aligned when entering the docking station 100, so that the connection between the connector 51 and the fluid supply connector 21 is reliable and the fluid supply efficiency is high.

[0062] In addition, to provide a connection between the connector 51 and the fluid supply connector 21, the connector 51 includes a connection pipe 511 in communication with the fluid supply connector 21, and a receiving portion 512 at the end of the connecting pipe 511. The opening of the receiving portion 512 is oriented toward front side of the cleaning device body 4, and at least a portion of the connecting pipe 511 may extend into the receiving portion 512 for mating with the liquid supply connector 21.

[0063] In addition, to ensure sealing reliability, as shown in FIG. 6 and fig. 7, the first end of the sealing member 3 of the docking station 100 is placed on the fluid supply connector 21, and the second end of the sealing member 3 of the docking station 100 extends into the receiving portion 512 and is placed on a portion of the connecting pipe 511 that extends into the receiving portion 512. member 3 has a plurality of sealing ribs projecting in a radial direction of the sealing member 3. The plurality of sealing ribs are spaced along the length of the sealing member 3. In the direction of insertion of the connector 51 into the sealing member 3, the receiving portion 512 expands, the plurality of sealing ribs have a progressively increasing protrusion height, and all a plurality of sealing ribs are in an interference fit of the receiving portion 512. That is, in the direction of insertion of the connector 51 into the sealing member 3, the next sealing ridge has a higher projection height than the previous sealing ridge. The plurality of sealing ribs and the receiving portion 512 form a multi-layer seal in the insertion direction, which provides a reliable seal to ensure that the cleaning device 200 is not subject to water leakage during its replenishment with liquid.

[0064] Embodiments of the present invention also provide a cleaning system. As shown in FIG. 1 and fig. 2, the cleaning system includes a docking station 100 and a cleaning device 200. The cleaning device 200 can perform cleaning, and the docking station 100 can replenish the cleaning device 200 with cleaning fluid, so that the cleaning device 200 can perform cleaning effectively. Moreover, during the replenishment of the cleaning device 200 with liquid, the cleaning device 200 is accurately and quickly aligned with the docking station 100, and the connection between the liquid supply connector 21 and the connector 51 is not subject to water leakage, which ensures good user experience, efficient liquid replenishment and increased cleaning efficiency of the entire system.

[0065] The cleaning system may also include a pump housing. The pump body communicates with the connector 51 of the cleaning device 200. When the connector 51 is docked and communicates with the liquid supply connector 21 of the docking station 100, a suction channel is formed by the pump body, the liquid supply connector 21 and the connector 51 so that liquid is pumped into the cleaning device 200 for storage

[0066] Obviously, the pump housing may be located in the docking station 100 or in the cleaning device 200.

[0067] In some embodiments of the invention, the pump housing is located in the cleaning device. The pump body communicates directly with connector 51, which provides greater suction force on connector 51 and rapid replenishment of liquid.

[0068] Obviously, some, but not all, embodiments of the present invention have been described above. Based on the disclosed embodiments of the invention, changes or variations in various other forms may be made by those skilled in the art, without creative effort, which are within the spirit of the present invention.

Claims (29)

1. A docking station (100) for use with a cleaning device (200), comprising: a station body (1) having a docking area and a guide assembly (10) on a side of the station body, wherein the guide assembly (10) is located in a docking area that is configured to receive a cleaning device (200), and the guide assembly (10) is configured to a guide connection with a mating unit (40) of the cleaning device (200); and a fluid supply unit (2) on the station body (1), wherein the liquid supply unit (2) contains a fluid supply connector (21), wherein the fluid supply connector (21) has a fluid outlet channel oriented towards the docking area , wherein the liquid outlet channel is configured for docking and communication with the connector (51) of the cleaning device (200) at the guide connection of the guide assembly (10) and the mating assembly (40), and the guide assembly (10) is located at a distance from the connector (21 ) to supply fluid to the fluid supply unit (2). 2. The docking station (100) of claim 1, wherein the guide assembly (10) includes a first guide structure (11), the docking area has an open side and is configured to receive the cleaning device (200) through the open side, and the first guide structure ( 11) contains a guide projection (111), which protrudes from the side of the station body (1), where the docking area is located, into the open side of the docking area. 3. The docking station (100) according to claim 2, wherein the guide protrusion (111) is tapered and the cross-section of the guide protrusion (111) is reduced, in the direction from the side of the station body (1) where the docking area is located, towards the open side of the docking area . 4. Docking station (100) according to any one of claims. 1-3, in which the guide assembly (10) includes a second guide structure (12) located in the lower part of the docking area and configured to guide connection with the second mating structure (42) of the mating assembly (40). 5. Docking station (100) according to claim 4, in which the station housing (1) contains a base (13) and a bracket (14) for flushing, designed to be detached from the base (13), while the docking area is determined by the base (13 ), a flushing bracket (14) is located on one side of the joining area, and a second guide structure (12) is located on the flushing bracket (14). 6. The docking station (100) of claim 5, wherein the flushing bracket (14) includes a filter (141), the docking area receives at least a portion of the filter (141), and the second guide structure is located on the filter (141). 7. The docking station (100) of claim 6, wherein the second guide structure (12) comprises one of a guide projection (121) and a guide chute (421) and is configured to guide connection with a second mating structure (42) comprising the other from the guide projection (121) and the guide groove (421). 8. The docking station (100) of claim 7, wherein the flushing bracket (14) surrounds one side of the docking area, the filter (141) is shaped like a reservoir and projects from the side of the flushing bracket (14) into the docking area, wherein the filter (141) has a downward facing opening and contains a plurality of filter strips spaced apart in the opening, and the gap between two adjacent filter strips defines a filter channel, wherein the second guide structure (12) is a guide projection that projects outward from the bottom of the filter. 9. Docking station (100) according to any one of claims. 1-3, also comprising a sealing element (3), which has a first end and a second end located opposite each other in the length direction of the sealing element (3), the first end of the sealing element (3) is put on the fluid supply connector (21), and the second end of the sealing element (3) is configured to receive at least a portion of the connector (51) of the cleaning device (200) and allow the connection of the connector (51) of the cleaning device to the fluid supply connector (21) when the cleaning device (200) is parked in the docking area, wherein the second end of the sealing element (3) contains a plurality of sealing ribs protruding in the radial direction of the sealing element (3), and the plurality of sealing ribs are spaced along the length of the sealing element (3) and have a protrusion height that successively increases from the second end of the sealing element (3 ) to the first end of the sealing element (3). 10. Docking station (100) according to any one of paragraphs. 1-3, in which the fluid supply unit (2) also contains a fluid supply bracket (22) connected to the station housing (1), the station housing (1) has a through hole, and the fluid supply connector (21) is located on the bracket (22) to supply fluid and passes through the through hole into the docking area. 11. The docking station (100) according to claim 10, in which the fluid supply unit (2) also includes an elastic retractable element (23) having two ends connected to a fluid supply bracket (22) and a fluid supply connector (21). , respectively. 12. A cleaning device (200) for use with a docking station (100) according to any one of claims. 1-11, containing: a cleaning device housing (4) comprising a mating assembly (40) on the side of the housing, the mating assembly (40) being configured for a guide connection with a guide assembly (10) of the docking station (100); And a unit (5) for passing liquid on the body (4), containing a connector (51) configured to dock and communicate with the connector (21) for supplying liquid to the docking station (100), wherein the cleaning device (200) is configured to enter the docking area of the docking station (100), and the cleaning device connector (51) is configured to dock and communicate with the fluid outlet of the fluid supply connector (21) of the docking station (100) at guide connection between the guide node (10) and the mating node (40). 13. The cleaning device (200) according to claim 12, wherein the mating assembly (40) comprises a first mating structure (41) configured to be guide connected to the first guide structure (11) of the guide assembly (10), wherein the direction in in which the cleaning device (200) enters the docking area of the docking station (100), represents the forward direction of the cleaning device (200), and the side of the housing (4) where the mating assembly (40) is located is located opposite the docking station (100) in the forward direction of the cleaning device (200), wherein the first mating structure (41) contains a guide recess (411) made in the form of a recess on the side of the housing (4) where the mating unit (40) is located. 14. The cleaning device (200) according to claim 13, wherein the cross-section of the guide recess (411) increases in the forward direction of the cleaning device (200). 15. The cleaning device (200) of claim 13, further comprising a sensor (6) located at the bottom of the guide recess (411) and configured to be activated by the first guide structure of the docking station (100) to send a detection signal when the cleaning device (200 ) is parked in the docking area of the docking station (100). 16. The cleaning device (200) according to claim 12, wherein the mating assembly (40) includes a second mating structure (42) located in the lower part of the housing (4) and configured to guide connection with the second guide structure (12) of the docking station (100). 17. The cleaning device (200) according to claim 12, in which the connector (51) includes a connecting pipe (511) configured to communicate with the connector (21) for supplying liquid, and a receiving part (512) at the end of the connecting pipe (511 ), with at least a portion of the connecting pipe (511) extending into the receiving portion (512). 18. Cleaning system containing: docking station (100) according to any one of paragraphs. 1-11 and cleaning device (200) according to any one of claims. 12-17. 19. The system according to claim 18, also comprising a pump housing that communicates with a connector (51) of the cleaning device (200), wherein the pump housing, the fluid supply connector (21) and the cleaning device connector (51) are configured to form a suction channel when the cleaning device connector (51) is docked and communicates with the fluid supply connector of the docking station (100). 20. The system according to claim 19, in which the pump housing is located in the cleaning device (200).

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