CN216628459U - Cleaning base station and cleaning system - Google Patents

Abstract

The utility model provides a cleaning base station and a cleaning system. The cleaning base station provided by the utility model is used for cleaning a cleaning device and comprises a shell and an intermittent water spraying assembly, wherein the shell is provided with an accommodating cavity, a partition plate is arranged in the accommodating cavity, the accommodating cavity is divided into a clean water cavity and a sewage cavity by the partition plate, the clean water cavity is provided with a water outlet opposite to the cleaning device, and the intermittent water spraying assembly is arranged in the clean water cavity so as to spray cleaning liquid in the clean water cavity to the cleaning device from the water outlet. The cleaning base station provided by the utility model can realize dirt removal and isolation, can be cleaned for multiple times, and can keep a good cleaning effect.

Description

Cleaning base station and cleaning system

Technical Field

The utility model relates to the technical field of cleaning tools, in particular to a cleaning base station and a cleaning system.

Background

With the development of science and technology and the improvement of living standard, household cleaning devices such as dust collectors and mopping machines are more and more popular, and the functions are more and more. Many cleaning devices have a floor mopping function, and cleaning members such as mops are arranged on a floor brush of the cleaning device, and the cleaning members need to be placed in a water tank or a cleaning bucket for cleaning after being dirty.

In the related technology, the cleaning liquid is filled in the cleaning barrel, when the scrubbing brush is placed in the cleaning barrel for cleaning, dirt or impurities on a cleaning piece of the scrubbing brush are separated from the cleaning liquid and mixed into the cleaning liquid, the cleaning liquid is easily polluted, in order to avoid cleaning by using sewage, after each cleaning, the cleaning liquid in the cleaning barrel needs to be poured out, and clean cleaning liquid needs to be added again.

However, the cleaning liquid is replaced every time cleaning is performed, which not only wastes time and labor, but also wastes water resources.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a cleaning base station and a cleaning system, and aims to solve the problems that in the related art, water needs to be changed when a cleaning device is cleaned every time, time and labor are wasted, and resources are wasted.

In a first aspect, the application provides a clean basic station for wash cleaning device, this clean basic station include casing and intermittent type water spray subassembly, and the casing has the chamber that holds, holds the intracavity and is provided with the baffle, and the baffle will hold the chamber and separate for clear water chamber and sewage chamber, and the clear water chamber has the delivery port relative with cleaning device, and the intermittent type water spray subassembly sets up in the clear water intracavity to spout from delivery port intermittent type nature to cleaning device with the washing liquid in the clear water intracavity.

The application provides a clean basic station can separate clear water and sewage in the cavity of difference through the baffle to utilize the washing liquid that intermittent type water spray subassembly can spout the clear water intracavity to wash the cleaning member on the cleaning device in the cleaning process, the sewage of the production after the washing can flow into the sewage chamber, thereby keep the clean of washing liquid in the clear water chamber, need not to wash and just change the washing liquid once, can carry out a lot of washing, and keep good cleaning performance.

As an alternative embodiment, the intermittent water spraying assembly may include a driving mechanism and a water guide member, the water guide member has a water inlet portion and a water spraying portion, and the driving mechanism is at least partially inserted into the water guide member and moves relative to the water guide member, so that the water inlet portion sucks the cleaning liquid in the cleaning water cavity into the water guide member, or the water spraying portion sprays the cleaning liquid in the water guide member. So set up, through the reciprocating motion of drive mechanism for the water guide, can intermittent type nature spout the cleaning solution to cleaning device, have better cleaning performance.

As an alternative embodiment, the driving mechanism may include a plurality of driving members and a piston, the water guiding member has a moving groove, the water inlet portion and the water spraying portion are both communicated with the moving groove, the piston is located in the moving groove, the plurality of driving members are sequentially connected to form a driving chain, and an output end of the driving chain is connected to the piston to drive the piston to move along the moving groove. With the arrangement, the pressure in the moving groove can be changed through the movement of the piston, and the cleaning liquid is sucked and sprayed by utilizing the alternate change of the pressure, so that the cleaning efficiency is improved.

As an alternative embodiment, any one of the plurality of transmission members may be provided with a driving portion, the driving portion at least partially extends out of the clean water cavity, the cleaning device may be provided with a rotating unit, and the driving portion may be in butt joint with the rotating unit. So set up, can utilize the rotary motion of cleaning device when wasing to realize the drive of intermittent type water spray subassembly, both can realize the cleaning process and the corresponding of water spray process and match, also can reduce the cost of cleaning the last intermittent type water spray subassembly of basic station.

As an alternative embodiment, the plurality of transmission members may include a first rotation member, a second rotation member, and a connecting rod member, the first rotation member has a first engaging portion, the second rotation member has a second engaging portion, the first engaging portion is engaged with the second engaging portion, the second rotation member is provided with a first connecting portion, a first end of the connecting rod member is rotatably connected to the first connecting portion, the first connecting portion is spaced from a rotation center of the second rotation member, the piston is provided with a second connecting portion, and a second end of the connecting rod member is rotatably connected to the second connecting portion. So set up, the link mechanism who forms can drive the piston through the continuous rotation of second rotation piece and carry out reciprocating motion, guarantees that the washing liquid can stabilize the efficient blowout.

As an alternative embodiment, the connecting rod member is located at the first end of the water guide member, the water inlet portion and the water spraying portion are both disposed at the second end of the water guide member, and the water inlet portion and the water spraying portion are located at different sides of the water guide member. So set up, can guarantee spatial layout's rationality, avoid the motion of driving medium and the structure production of business turn over water position to interfere, can make the washing liquid in the clear water chamber can be by whole or be close to the evacuation simultaneously.

As an optional implementation manner, a mounting groove may be disposed in the clean water chamber, the first rotating member, the second rotating member and the water guiding member may be disposed in the mounting groove, a fixing portion may be disposed in the mounting groove, and the water guiding member is connected to the fixing portion to ensure the reliability of the installation of the water guiding member.

The mounting groove can be internally provided with a first positioning column and a second positioning column, the first rotating part is sleeved on the first positioning column, and the second rotating part is sleeved on the second positioning column, so that the rotating center of the first rotating part and the rotating center of the second rotating part can be positioned, and the reliability of a transmission chain formed by a plurality of transmission parts is ensured.

As an optional implementation manner, the intermittent water spraying assembly may further include a water inlet cover and a first blocking piece, the water inlet cover is disposed on the water inlet portion and encloses with the water inlet portion to form a first accommodating groove, the first blocking piece is located in the first accommodating groove, and the water inlet cover is provided with a water inlet.

When the piston deviates from the water inlet part to move, the first blocking piece opens the water inlet, and when the piston moves towards the water inlet part, the first blocking piece closes the water inlet. With the arrangement, the cleaning liquid can be sucked from the water inlet in a clearance manner in the reciprocating movement stroke of the piston.

As an optional implementation manner, the intermittent water spraying assembly may further include a water guiding column and a second blocking piece, the first end of the water guiding column may be communicated with the water spraying portion, the second end of the water guiding column may be communicated with the water outlet, the water spraying portion is provided with a second accommodating groove, the second blocking piece is disposed in the second accommodating groove, and the second accommodating groove may be provided with a water spraying opening.

When the piston moves away from the water spraying part, the second blocking piece closes the water spraying opening; when the piston moves towards the water spraying part, the second blocking piece opens the water spraying opening. With this arrangement, the cleaning liquid can be intermittently discharged from the water discharge port during the stroke of the reciprocating movement of the piston.

As an optional implementation manner, one end of the water inlet portion, which is away from the water inlet cover, is provided with a first limiting member, and the first limiting member is used for blocking the first blocking member in the first accommodating groove; and/or a second limiting part is arranged at the first end of the water guide column, and the first limiting part is used for blocking the second plugging part in the second accommodating groove. So set up, can avoid the shutoff piece to get into the removal inslot of water guide when washing liquid inhales or spouts.

As an optional implementation mode, the partition board can comprise a side board and a cover board, the cover board can be covered on the top of the side board and jointly enclose to form a clear water cavity, and the water outlet is formed in the cover board. So set up, can avoid the sewage in the sewage chamber to flow back to the clear water chamber from the delivery port.

As an optional implementation manner, the cleaning base station provided by the application may further include a water spraying cover, the cover plate may be provided with a water chute, the water spraying cover may be covered on the water chute and surround the water chute to form a water guiding channel, the water outlet is communicated with the water chute, and the water spraying cover is provided with water spraying holes facing the cleaning device. So set up, have wider washing area when can making the washing liquid blowout to improve the cleaning performance.

As an optional implementation manner, the height of the top of the cover plate may be lower than the edge of the top of the circumferential side of the housing, the sewage chamber may at least partially surround the clean water chamber, the cover plate is provided with a water filling port communicated with the clean water chamber, and the water filling port protrudes out of the cover plate. So set up, can guarantee the rationality that holds chamber spatial distribution on the one hand, avoid the washing liquid in the cleaning process to spill over from clean basic station, on the other hand avoids the sewage in the sewage chamber to get into in the clear water chamber from the filler.

In a second aspect, the present application provides a cleaning system, which includes a cleaning device and the cleaning base station in the above technical solution, wherein the cleaning base station is used for cleaning the cleaning device.

As an alternative embodiment, the cleaning device may be an electric cleaning device, the cleaning device may include a floor brush, the floor brush is provided with a rotating unit and a cleaning member connected with the rotating unit, the cleaning base station includes a housing and an intermittent water spraying assembly located in the housing, and the rotating unit is abutted with the intermittent water spraying assembly to drive the intermittent water spraying assembly to spray the cleaning solution when the rotating unit rotates.

The application provides a clean basic station and clean system, clean basic station is used for wasing cleaning device, clean basic station includes casing and intermittent type water spray subassembly, the casing has the chamber that holds, it is provided with the baffle to hold the intracavity, the baffle will hold the chamber and separate for clear water chamber and sewage chamber, the clear water chamber has the delivery port relative with cleaning device, intermittent type water spray subassembly sets up in the clear water intracavity, spout to cleaning device from the delivery port with the washing liquid of clear water intracavity, thereby realize the isolation of decontaminating, can wash many times, and keep good cleaning performance.

In addition to the technical problems addressed by the embodiments of the present application, the technical features constituting the technical solutions, and the advantages brought by the technical features of the technical solutions described above, other technical problems solved by the cleaning base station and the cleaning system provided by the present application, other technical features included in the technical solutions, and advantages brought by the technical features will be further described in detail in the detailed description.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a cleaning base station and a cleaning device provided in an embodiment of the present application;

fig. 2 is a schematic structural diagram of a cleaning base station and a cleaning device provided in the embodiment of the present application;

fig. 3 is an internal cross-sectional view of a cleaning base station provided in an embodiment of the present application;

FIG. 4 is a partial view of position A of FIG. 3;

fig. 5 is an exploded view of a clean base station according to an embodiment of the present disclosure.

Description of reference numerals:

100-a clean base station; 110-a housing; 111-clear water cavity; 1111-mounting groove; 1112-a fixed part; 1113-first positioning column; 1114 — second location columns; 112-a sewage chamber; 120-intermittent water spray assembly; 121-a first rotating member; 1211 — a first engagement portion; 1212-a driving portion; 122-a second rotating member; 1221-a second engagement portion; 1222-a first connection; 123-connecting rod piece; 124-a piston; 1241-a second connection part; 125-a water guide; 1250-a mobile slot; 1251-water intake; 1252-water spraying part; 1253-a second receiving groove; 1254-water jet; 1255-first stop; 126-a water inlet cover; 1261-a first closure; 1262-first receiving groove; 1263-water inlet; 127-a water conducting column; 1271-a second stop; 1272-a second closure; 130-a separator; 131-side plates; 132-a cover plate; 1321-a flume; 1322-a water outlet; 1323-filler; 1324-via; 140-a water spray cover; 141-water spray holes;

200-a cleaning device; 210-a floor brush; 211-a rotation unit; 2111-gear hole.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments.

First, it should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present application, and are not intended to limit the scope of the present application. And can be adjusted as needed by those skilled in the art to suit particular applications.

Next, it should be noted that in the description of the present application, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "front", "rear", "inner", "outer", etc. are based on the direction or positional relationship shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or member must have a specific orientation, be configured and operated in a specific orientation, and thus, should not be construed as limiting the present application.

Furthermore, it should be noted that, in the description of the present application, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; there may be communication between the interiors of the two members. The specific meaning of the above terms in the present application can be understood by those skilled in the art as the case may be.

In the description herein, reference to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present disclosure. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Mopping machine, electric mop etc. have cleaning device who drags ground function, it rotates to drive the cleaning member through cylinder or the carousel of rotation on its scrubbing brush usually, utilize the cleaning member and the friction of treating the cleaning surface to reach clean effect, dirty cleaning member need wash, in order to improve the cleaning efficiency, can wash in a basin with scrubbing brush whole placing, pour the sewage in the basin after the washing is accomplished again, change clean water for cleaning, in order to wash next time, avoid next time wash with sewage and lead to the unable sanitization of cleaning member. However, each time the washing is performed in sequence, the cleaning water needs to be replaced once, which wastes water resources and time and labor.

In view of above problem, this application provides a clean basic station and clean system, through the inside structural design of clean basic station, in the cleaning device cleaning process, clean basic station is inside can realize clear water and sewage isolation to the mode through intermittent type water spray washes cleaning device, guarantees to wash at every turn and has better clean effect, can not cause the waste of water resource simultaneously, can carry out washing operation many times after clean basic station moisturizing at every turn.

Fig. 1 is a schematic structural diagram of a cleaning base station and a cleaning device provided in an embodiment of the present application in cooperation, fig. 2 is a schematic structural diagram of a cleaning base station and a cleaning device provided in an embodiment of the present application in separation, fig. 3 is an internal cross-sectional view of a cleaning base station provided in an embodiment of the present application, and fig. 4 is a partial view of a position a in fig. 3.

As shown in fig. 1 to 4, an embodiment of the present application provides a cleaning base station 100, configured to clean a cleaning device 200, the cleaning base station 100 includes a housing 110, a partition 130, and an intermittent water spraying assembly 120, the housing 110 is formed with an accommodating cavity for accommodating a cleaning liquid, when the cleaning device 200 is placed on the cleaning base station 100 for cleaning, at least a portion of a floor brush 210 of the cleaning device 200 is located in the accommodating cavity, the partition 130 and the intermittent water spraying assembly 120 are both disposed in the accommodating cavity, the intermittent water spraying assembly 120 is configured to intermittently spray the cleaning liquid to the cleaning device 200 to flush the cleaning device 200, the partition 130 may partition the accommodating cavity into different spaces, so as to distinguish between a clean cleaning liquid before cleaning and a dirty cleaning liquid after cleaning.

It is understood that the partition 130 may divide the accommodating chamber into a clean water chamber 111 and a dirty water chamber 112, wherein the clean water chamber 111 is used for accommodating clean cleaning liquid, the clean water chamber 111 has a water outlet 1322 opposite to the cleaning device 200, the intermittent water spraying assembly 120 is disposed in the clean water chamber 111 to spray the cleaning liquid in the clean water chamber 111 toward the cleaning device 200 from the water outlet 1322, and the dirty water chamber 112 is disposed adjacent to the clean water chamber 111, and the dirty cleaning liquid can flow along the partition 130 to the dirty water chamber 112 after cleaning.

In addition, in cleaning process at every turn, intermittent type water spray component 120 only spouts the quantity of the required washing liquid of this time of cleaning process from clear water chamber 111, and the washing liquid that stores in clear water chamber 111 can carry out cleaning process many times to it is clean washing liquid that all uses to wash at every turn, has guaranteed the utilization efficiency of washing liquid, and the accommodation space's of sewage chamber 112 size and clear water chamber 111 accommodation space's size phase-match, can collect the sewage that washs the production at every turn.

It should be noted that, in the cleaning base station 100 provided in the embodiment of the present application, the clean water chamber 111 and the sewage chamber 112 are two relatively independent spaces, and the intermittent water spraying assembly 120 is used for performing the washing, so that on one hand, the dirty cleaning member of the cleaning device 200 can be prevented from directly contacting the inside of the clean water chamber 111, that is, the cleaning device 200 is located outside the clean water chamber during the cleaning process, and on the other hand, the cleaning device 200 can also be prevented from directly contacting the sewage in the sewage chamber 112, that is, the cleaning device 200 is at least located above the liquid level of the sewage chamber 112 during the cleaning process. In the complete cleaning process, the cleaning liquid flows in a single direction from the clean water chamber 111 to the surface of the cleaning device 200 and then to the sewage chamber 112, so that a good cleaning effect can be maintained.

The detailed structure, arrangement position and the principle of implementing the water-jet flushing of the intermittent water-jet assembly 120 will be described in detail first.

Fig. 5 is an exploded view of a cleaning base station according to an embodiment of the present disclosure, referring to fig. 2 to 5, in one possible implementation, the intermittent water spraying assembly 120 may include a driving mechanism and a water guiding member 125, the water guiding member 125 is located in the clean water chamber 111 for guiding the flow of the cleaning liquid, and the driving mechanism may cooperate with the water guiding member 125 and drive the cleaning liquid to enter the water guiding member 125, that is, the cleaning liquid in the clean water chamber 111 is sucked in, or drive the cleaning liquid to be sprayed out from the water guiding member 125, that is, the cleaning liquid is sprayed out from the water outlet 1322 to flush the cleaning device 200.

The water guide 125 may be provided with a water inlet portion 1251 and a water spray portion 1252, the driving mechanism may be at least partially inserted into the water guide 125, and a portion of the driving mechanism inserted into the water guide 125 may move relative to the water guide 125, during the operation of the driving mechanism, a motion stroke of reciprocating movement relative to the water guide 125 may be formed, during this process, the stroke in one direction may enable the water inlet portion 1251 to suck the cleaning liquid in the cleaning water cavity 111 into the water guide 125, and the stroke in the other direction may enable the water spray portion 1252 to spray the cleaning liquid in the water guide 125.

It can be understood that, through the reciprocating movement of the driving mechanism relative to the water guide 125, the cleaning liquid can be intermittently sprayed to the cleaning device 200, i.e. a complete water spraying process including a water absorbing process and a water spraying process, and the cleaning of the cleaning device 200 is completed by multiple water spraying, since the cleaning member itself on the cleaning device 200 can move in the cleaning process, the intermittent water spraying flushing can save water on one hand, and on the other hand, the cleaning member can be alternatively flushed at different positions, thereby having better cleaning effect.

In some embodiments, the driving mechanism may include a plurality of transmission members and a piston 124, a moving groove 1250 is provided in the water guide 125, the water inlet portion 1251 and the water spray portion 1252 are both communicated with the moving groove 1250, the piston 124 is positioned in the moving groove 1250, the moving groove 1250 provides a receiving space for the cleaning liquid sucked into the water guide 125 on one hand, and provides a guide for movement of the piston 124 on the other hand, varies the pressure in the moving groove 1250 by the movement of the piston 124, and sucks and sprays the cleaning liquid using the alternate variation of the pressure.

It is understood that when the accommodating space in the moving bowl 1250 is increased by the movement of the piston 124, the pressure in the moving bowl 1250 becomes smaller with respect to the clean water chamber 111, and the cleaning liquid is sucked into the moving bowl 1250, and conversely, when the accommodating space in the moving bowl 1250 is decreased by the movement of the piston 124, the pressure in the moving bowl 1250 is increased, and the cleaning liquid in the moving bowl 1250 is forced to be ejected.

The plurality of transmission members may be sequentially connected to form a driving chain, and an output end of the driving chain may be connected to the piston 124 to drive the piston 124 to move along the moving groove 1250, when the cleaning apparatus 200 is placed on the cleaning base station 100 to start cleaning, the piston 124 may start reciprocating under driving, and this process may be always performed when the cleaning process is continued, and a flow rate or a water pressure of the sprayed cleaning liquid may not be affected by a remaining water amount in the cleaning water chamber 111, and a specific driving structure and principle of the driving chain will be described below.

Referring to fig. 3 to fig. 5, in an alternative embodiment, the plurality of transmission members may include a first rotating member 121, a second rotating member 122 and a connecting rod member 123, the first rotating member 121 serves as a power input end to drive the second rotating member 122 to rotate through its rotation, the second rotating member 122 may drive one end of the connecting rod member 123 to rotate circumferentially, and the other end of the connecting rod member 123 may cooperate with the piston 124 to perform linear reciprocating movement, that is, the second rotating member 122, the connecting rod member 123 and the piston 124 cooperate with the moving groove 1250 to form a mechanism similar to a connecting rod slider.

The first rotating member 121 may be provided with a first engaging portion 1211, the second rotating member 122 may be provided with a second engaging portion 1221, the first engaging portion 1211 and the second engaging portion 1221 are engaged with each other, the second rotating member 122 is provided with a first connecting portion 1222, a first end of the connecting rod 123 is rotatably connected to the first connecting portion 1222, the first connecting portion 1222 is spaced from a rotation center of the second rotating member 122, the piston 124 is provided with a second connecting portion 1241, and a second end of the connecting rod 123 is rotatably connected to the second connecting portion 1241.

It can be understood that the above-formed link mechanism can drive the piston 124 to continuously reciprocate through the continuous unidirectional rotation of the second rotating member 122, so as to ensure that the cleaning liquid can be stably and efficiently sprayed out, and the reciprocating speed or unit time of the piston 124 depends on the rotating speed of the second rotating member 122, and when the rotating speed of the second rotating member 122 is faster, the reciprocating unit time of the piston 124 is shorter, and the corresponding gap for spraying water is shorter, and the spraying speed is faster.

In addition, the stroke of the reciprocating movement of the piston 124 depends on the size of the distance between the first connecting portion 1222 and the rotation center of the second rotating member 122 on the second rotating member 122, the maximum moving distance of the unidirectional stroke of the piston 124 is approximately twice the distance between the first connecting portion 1222 and the rotation center of the second rotating member 122, accordingly, the distance between the first connecting portion 1222 and the rotation center of the second rotating member 122 determines the volume of the cleaning liquid sucked and ejected by the intermittent water spraying assembly 120 each time, i.e., determines the single water spraying amount of the water spraying washing.

It should be noted that, under the condition that the size of the water outlet 1322 is fixed, the reciprocating speed and stroke of the piston 124 determine the flow rate of the cleaning liquid sprayed during the water spraying washing, i.e. the water pressure of the water spraying washing, so that, in the case that the position of the first connecting portion 1222 on the second rotating member 122 is determined, the washing flow rate of the cleaning liquid can be controlled by controlling the rotation speed of the second rotating member 122, and accordingly, the washing flow rate of the cleaning liquid can be controlled by controlling the rotation speed of the first rotating member.

For example, the first connecting portion 1222 may be a connecting column protruding from the second rotating member 122, a connecting hole may be formed at a first end of the connecting rod 123, the connecting hole may be sleeved on the connecting column, a connecting column may also be formed at one end of the piston 124 facing the connecting rod 123, a connecting hole may also be formed at a second end of the connecting rod 123, the connecting hole is sleeved on the connecting column of the piston 124, and axes of the connecting holes at two ends of the connecting rod 123 are parallel to each other, so as to rotatably connect two ends of the connecting rod 123 to the second rotating member 122 and the piston 124.

In order to ensure the reasonability of the spatial layout and avoid the interference between the movement of the transmission member and the structure of the water inlet and outlet positions, the connecting rod member 123 may be disposed at the first end of the water guide member 125, the water inlet portion 1251 and the water spray portion 1252 may be disposed at the second end of the water guide member 125, when the connecting rod member 123 drives the piston 124 to move from the second end of the water guide member 125 to the first end, it is a water suction stroke, the cleaning liquid enters the moving groove 1250 from the water inlet portion 1251, and when the connecting rod member 123 drives the piston 124 to move from the first end of the water guide member 125 to the second end, it is a compression stroke, the cleaning liquid is sprayed from the water spray portion 1252.

The water inlet portion 1251 and the water spray portion 1252 may be located at different sides of the water guide 125, that is, the water inlet portion 1251 and the water spray portion 1252 are respectively disposed at different positions of the second end of the water guide 125 in the circumferential direction, so that the cleaning liquid in the clean water chamber 111 may be completely or nearly emptied.

Exemplarily, the water inlet portion 1251 may be located at one side of the water guide 125 facing the bottom of the clean water chamber 111, so as to suck the cleaning liquid under a less condition of the cleaning liquid, thereby avoiding the cleaning liquid from remaining, and the water spray portion 1252 may be disposed at one side of the water guide 125 facing the top of the clean water chamber 111, thereby minimizing a stroke of the sprayed cleaning liquid flowing to the cleaning apparatus 200, thereby avoiding a loss of a flow rate and a water pressure of the cleaning liquid, and ensuring a washing effect. In addition, for space utilization inside the water guide 125, the piston 124 may have a cylindrical structure with a single end opened, and the opening is toward the second end of the water guide 125.

In order to assemble the parts of the driving mechanism, a mounting groove 1111 may be provided in the clean water chamber 111, the first rotating member 121, the second rotating member 122 and the water guide member 125 may be all disposed in the mounting groove 1111, and the mounting groove 1111 is provided at the bottom of the clean water chamber 111 to ensure that the cleaning solution can be approximately drained.

A fixing portion 1112 may be disposed in the mounting groove 1111, and the water guide 125 is connected to the fixing portion 1112, so as to ensure the reliability of the installation of the water guide 125. For example, the fixing portion 1112 may be formed with an arc-shaped groove, and the shape of the arc-shaped groove matches with the shape of the outer wall of the water guide 125, and a protrusion having a mounting hole may be disposed on the circumferential side of the water guide 125, and a corresponding threaded hole may be opened on the fixing portion 1112, so that the water guide 125 is mounted on the fixing portion 1112 through a threaded fastener.

In addition, a first positioning column 1113 and a second positioning column 1114 can be further arranged in the mounting groove 1111, the first rotating member 121 can be sleeved on the first positioning column 1113, and the second rotating member 122 can be sleeved on the second positioning column 1114, so that the rotating centers of the first rotating member 121 and the second rotating member 122 can be positioned, and the reliability of a transmission chain formed by a plurality of transmission members is ensured. For example, the first rotating member 121 and the second rotating member 122 may be a sleeve structure with an open end, the first positioning column 1113 and the second positioning column are both cylindrical, the first engaging portion 1211 is located on the outer wall of the bottom end of the first rotating member 121, and the second engaging portion 1221 is located on the outer wall of the bottom end of the second rotating member 122, which are engaged with each other.

The first rotating member 121 serves as a starting point of power output, and the power source for rotation may be realized by a driving source such as a motor provided on the cleaning base station 100, or may be realized by cooperation with an external device, for example, by cooperation with the cleaning apparatus 200, and is driven by a power unit on the cleaning apparatus 200 when the cleaning apparatus 200 is used for cleaning.

In some embodiments, any one of the plurality of transmission members may be driven by the external cleaning device 200, for example, one end of the first rotating member 121 facing away from the mounting groove 1111 may be provided with a driving portion 1212, the driving portion 1212 at least partially protrudes out of the clean water cavity 111, the cleaning device 200 may be provided with the rotating unit 211, and the driving portion 1212 may be abutted with the rotating unit 211.

It can be understood that, in the cleaning process of the cleaning device 200, the rotating unit 211 needs to drive the cleaning member to rotate, so as to perform friction cleaning, and the cleaning member is cleaned by spraying water at different positions, the rotating unit 211 can synchronously drive the first rotating member 121 to rotate, so as to realize the driving of the intermittent water spraying assembly 120 by using the rotating action of the cleaning device 200 during cleaning, which can not only realize the corresponding matching between the cleaning process and the water spraying process, but also reduce the cost for cleaning the intermittent water spraying assembly 120 on the base station 100.

For example, the driving portion 1212 may have a gear shape, a gear hole 2111 matching with the shape of the driving portion 1212 may be provided at the rotation center of the rotation unit 211, and the driving portion 1212 may be inserted into the gear hole 2111 when the cleaning apparatus 200 is placed on the cleaning base station 100.

Since the operation principle of the intermittent water spraying assembly 120 is a process of alternately performing water absorption and water spraying, in order to ensure the efficiency of water absorption and water spraying, the water absorption part can be opened and the water spraying part 1252 can be closed in the water absorption process to ensure that the cleaning solution can sufficiently enter the movable tank 1250 and simultaneously prevent the sewage possibly remaining outside the water spraying port 1254 from being sucked, and in the water spraying process, the water spraying part 1252 can be opened and the water absorption part can be closed to ensure that the cleaning solution in the movable tank 1250 is sprayed out from the water spraying part 1252 to prevent the cleaning solution from flowing back to the clean water chamber 111 from the water absorption part. The structure for realizing this function will be explained below.

Referring to fig. 3 to fig. 5, in a possible implementation manner, the intermittent water spraying assembly 120 may further include a water inlet cover 126 and a first blocking member 1261, the water inlet cover 126 may be covered on the water inlet portion 1251 and form a first containing groove 1262 together with the water inlet portion 1251, the first blocking member 1261 is located in the first containing groove 1262, and the water inlet cover 126 is provided with a water inlet 1263.

The first container groove 1262 is communicated with the space outside the water guide 125 through the water inlet 1263, that is, the clear water cavity 111, one end of the first container groove 1262, which is away from the water inlet 1263, is communicated with the movable groove 1250 inside the water guide 125, when the piston 124 moves and starts to absorb water, the cleaning solution enters the first container groove 1262 through the water inlet 1263 from the clear water cavity 111, and then enters the movable groove 1250 through the first container groove 1262.

It will be appreciated that when the piston 124 moves away from the water inlet portion 1251, the first blocking member 1261 opens the water inlet 1263 under the action of suction, and when the piston 124 moves toward the water inlet portion 1251, the first blocking member 1261 closes the water inlet 1263 under the action of pressure, so that during the stroke of the reciprocating movement of the piston 124, the cleaning liquid can be intermittently sucked from the water inlet 1263, while the backflow of the cleaning liquid is prevented.

For example, the first plugging member 1261 may be a glass bead, or may be made of metal, plastic, or other materials, and the first plugging member 1261 may have a spherical shape, the diameter of the first plugging member 1261 may be larger than that of the water inlet 1263, and the water inlet 1263 may have a circular shape, so as to avoid a gap from being generated when the first plugging member 1261 plugs the water inlet 1263.

In a possible implementation manner, the intermittent water spraying assembly 120 may further include a water guiding column 127 and a second blocking member 1272, a first end of the water guiding column 127 may be communicated with the water spraying portion 1252, a second end of the water guiding column 127 may be communicated with the water outlet 1322, the water spraying portion 1252 is provided with a second accommodating groove 1253, the second blocking member 1272 is disposed in the second accommodating groove 1253, and the second accommodating groove 1253 may be provided with a water spraying port 1254.

The second receiving groove 1253 is connected to the moving groove 1250 of the water guide 125 through the water outlet 1254, and when the piston 124 moves and starts to spray water, the piston 124 compresses the cleaning liquid in the moving groove 1250, and the cleaning liquid enters the second receiving groove 1253 from the water outlet 1254, and then enters the water guiding column 127 from the second receiving groove 1253, and flows out from the air outlet.

It will be appreciated that when the piston 124 moves away from the water jet portion 1252, the second blocking member 1272 closes the water jet 1254 by suction, and when the piston 124 moves toward the water jet portion 1252, the second blocking member 1272 opens the water jet 1254 by pressure, so that the cleaning liquid can be intermittently ejected from the water jet 1254 during the stroke of the reciprocating movement of the piston 124.

For example, second plug 1272 may be a glass bead and may take the form of a type of shape similar to first plug 1261 and fit into spout 1254, and will not be described in detail herein.

It should be noted that, since the water intake portion 1251 and the water spray portion 1252 are alternately performed, when the first blocking member 1261 opens the water inlet 1263, the second blocking member 1272 closes the water spray opening 1254, and when the first blocking member 1261 closes the water inlet 1263, the second blocking member 1272 opens the water spray opening 1254.

In addition, the first blocking member 1261 and the second blocking member 1272 move in the first accommodating groove 1262 and the second accommodating groove 1253 respectively under the pressure and impact of the water flow, and in order to avoid falling out of the first accommodating groove 1262 and the second accommodating groove 1253, corresponding limiting structures can be arranged to limit the moving range.

In some embodiments, an end of the water inlet portion 1251 facing away from the water inlet cap 126 may be provided with a first retaining member 1255, and the first retaining member 1255 is used for blocking the first blocking member 1261 in the first receiving groove 1262 and placing it into the moving groove 1250. For example, the first limiting member 1255 may have a net structure, for example, a cross structure, so that four water permeable holes are formed at one end of the first accommodating groove 1262 communicating with the moving groove 1250, and the size of the water permeable holes is smaller than that of the first blocking member 1261. Further, the first stopper 1255 may be integrally formed with the water guide 125.

The first end of the water guiding column 127 may be provided with a second stopper 1271, and the first stopper 1255 is used to block the second blocking piece 1272 in the second receiving groove 1253, so as to prevent the second blocking piece from entering the interior of the water guiding column 127. The second position-limiting member 1271 may have a structure similar to that of the first position-limiting member 1255, and therefore, the structure is not described herein, and in addition, the second position-limiting member 1271 may be integrally formed with the water guide column 127.

In one possible embodiment, the partition 130 may include a side plate 131 and a cover plate 132, the cover plate 132 may be covered on the top of the side plate 131 and jointly enclose to form the clean water chamber 111, the water outlet 1322 is provided on the cover plate 132, and the bottom of the floor brush 210 of the cleaning device 200 may be supported on the cover plate 132 such that the water outlet 1322 is opposite to the floor brush 210 when the cleaning device 200 is cleaned.

It can be understood that the side plate 131, the cover plate 132 and the inner wall of the housing 110 enclose the clean water chamber 111 into a relatively closed space to ensure the cleaning of the cleaning solution, and the top of the cover plate 132 can be provided with a friction portion, and the cleaning member on the floor brush 210 can rub against the friction portion during cleaning, so as to improve the cleaning effect. For example, the friction part may be disposed around the center of the rotation unit 211 on the floor brush 210 of the cleaning device 200, and the structure of the friction part may include, but is not limited to, ribs, bumps, brushes, etc.

In some embodiments, the cover plate 132 may be provided with a water spraying cover 140, the cover plate 132 may be provided with a water guiding slot 1321, the water spraying cover 140 may cover the water guiding slot 1321 and surround the water guiding slot 1321 to form a water guiding channel, the water outlet 1322 is communicated with the water guiding slot 1321, that is, the cleaning solution sprayed from the water outlet 1322 may enter the water guiding channel, the water spraying cover 140 is provided with a water spraying hole 141, and the water spraying hole 141 faces the cleaning device 200.

It can be understood that the water spraying cover 140 is opposite to the cleaning member on the floor brush 210 of the cleaning device 200, and the water spraying cover 140 can make the cleaning liquid have a wider cleaning area when being sprayed out, so as to improve the cleaning effect.

For example, the water outlet portion of the water spraying cover 140 may have a strip shape, and the extension direction of the strip shape may match the arrangement direction of the cleaning elements on the floor brush 210.

Because the cleaning device 200 is used for cleaning the top of the cover plate 132, the height of the top of the cover plate 132 can be lower than the edge of the top of the peripheral side of the housing 110, and the sewage cavity 112 can at least partially surround the clean water cavity 111, so that the reasonability of the space distribution of the accommodating cavity can be ensured, and the cleaning liquid in the cleaning process can be prevented from overflowing from the cleaning base station 100.

In addition, the cover plate 132 is provided with a water filling port 1323 communicated with the clean water cavity 111, and the water filling port 1323 protrudes out of the cover plate 132, so that the sewage in the sewage cavity 112 is prevented from entering the clean water cavity 111 from the water filling port 1323.

It should be noted that, when the intermittent water spraying assembly 120 sprays water by being driven by the rotating unit 211 on the floor brush 210 of the cleaning device 200, the top of the cover plate 132 may be provided with a through hole 1324 for the driving portion 1212 on the top of the first rotating member 121 to protrude, and the rotating unit 211 on the floor brush 210 may be one or more, wherein any one of the rotating units 211 may be matched with the driving portion 1212, or; a plurality of intermittent water spray assemblies 120 may be provided in the fresh water chamber 111 to be respectively engaged with different rotary units 211.

Referring to fig. 1 and fig. 2, an embodiment of the present application further provides a cleaning system, which includes a cleaning device 200 and the cleaning base station 100 in the foregoing technical solution, and the cleaning base station 100 is used for cleaning the cleaning device 200.

The cleaning device 200 may be an electric cleaning device, the cleaning device 200 may include a floor brush 210, a rotating unit 211 and a cleaning member connected to the rotating unit 211 are disposed on the floor brush 210, the cleaning base station 100 includes a housing 110 and an intermittent water spraying assembly 120 located in the housing 110, and the rotating unit 211 is in butt joint with the intermittent water spraying assembly 120 to drive the intermittent water spraying assembly 120 to spray cleaning solution when the rotating unit 211 rotates. The clean base station 100 includes all the technical features and effects of the foregoing technical solutions, and will not be described herein.

The application provides a clean basic station and clean system, clean basic station is used for wasing cleaning device, clean basic station includes casing and intermittent type water spray subassembly, the casing has the chamber that holds, it is provided with the baffle to hold the intracavity, the baffle will hold the chamber and separate for clear water chamber and sewage chamber, the clear water chamber has the delivery port relative with cleaning device, intermittent type water spray subassembly sets up in the clear water intracavity, spout to cleaning device from the delivery port with the washing liquid of clear water intracavity, thereby realize the isolation of decontaminating, can wash many times, and keep good cleaning performance.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the utility model has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (16)

1. A cleaning base station is characterized in that the cleaning base station (100) is used for cleaning a cleaning device (200), the cleaning base station (100) comprises a shell (110) and an intermittent water spraying assembly (120), the shell (110) is provided with a containing cavity, a partition plate (130) is arranged in the containing cavity, the partition plate (130) divides the containing cavity into a clean water cavity (111) and a sewage cavity (112), the clean water cavity (111) is provided with a water outlet (1322) opposite to the cleaning device (200), and the intermittent water spraying assembly (120) is arranged in the clean water cavity (111) so as to intermittently spray cleaning liquid in the clean water cavity (111) to the cleaning device (200) from the water outlet (1322).

2. The cleaning base station according to claim 1, characterized in that the intermittent water spraying assembly (120) comprises a driving mechanism and a water guide member (125), the water guide member (125) is provided with a water inlet part (1251) and a water spraying part (1252), the driving mechanism is at least partially inserted into the water guide member (125) and moves relative to the water guide member (125) so as to suck the cleaning liquid in the cleaning water cavity (111) into the water guide member (125) through the water inlet part (1251) or spray the cleaning liquid in the water guide member (125) through the water spraying part (1252).

3. The cleaning base station according to claim 2, wherein the driving mechanism comprises a plurality of transmission members and a piston (124), the water guide member (125) has a moving groove (1250), the water inlet portion (1251) and the water spray portion (1252) are both communicated with the moving groove (1250), the piston (124) is located in the moving groove (1250), and the plurality of transmission members are connected in sequence and connected with the piston (124) to drive the piston (124) to reciprocate along the moving groove (1250).

4. The cleaning base station according to claim 3, wherein a driving portion (1212) is provided on any one of the plurality of transmission members, the driving portion (1212) at least partially protrudes out of the clean water chamber (111), a rotating unit (211) is provided on the cleaning device (200), and the driving portion (1212) is in butt joint with the rotating unit (211).

5. The cleaning base station according to claim 3, wherein the plurality of transmission members include a first rotating member (121), a second rotating member (122), and a link member (123), the first rotating member (121) has a plurality of first engaging portions (1211) provided along a circumferential direction of the first rotating member, the second rotating member (122) has a second engaging portion (1221) provided along a circumferential direction of the second rotating member, the first engaging portions (1211) engage with the second engaging portion (1221), and the second rotating member (122) is connected to the piston (124) through the link member (123).

6. The cleaning base station according to claim 5, wherein the second rotating member (122) is provided with a first connecting portion (1222), a first end of the link member (123) is rotatably connected with the first connecting portion (1222), the first connecting portion (1222) is spaced from a rotation center of the second rotating member (122), the piston (124) is provided with a second connecting portion (1241), and a second end of the link member (123) is rotatably connected with the second connecting portion (1241).

7. The cleaning base station of claim 5, wherein the link member (123) is located at a first end of the water guide (125), the water inlet portion (1251) and the water spray portion (1252) are both disposed at a second end of the water guide (125), and the water inlet portion (1251) and the water spray portion (1252) are located at different sides of the water guide (125).

8. The clean base station according to claim 5, characterized in that a mounting groove (1111) is arranged in the clean water chamber (111), the first rotating member (121), the second rotating member (122) and the water guide member (125) are all arranged in the mounting groove (1111), a fixing portion (1112) is arranged in the mounting groove (1111), and the water guide member (125) is connected with the fixing portion (1112);

still be provided with first reference column (1113) and second reference column (1114) in mounting groove (1111), first rotation piece (121) cover is located on first reference column (1113), second rotation piece (122) cover is located on second reference column (1114).

9. The cleansing base according to any one of claims 3 to 8, wherein the intermittent water spray assembly (120) further comprises a water inlet cover (126) and a first blocking piece (1261), the water inlet cover (126) is covered on the water inlet portion (1251) and forms a first accommodating groove (1262) together with the water inlet portion (1251), the first blocking piece (1261) is positioned in the first accommodating groove (1262), and the water inlet cover (126) is provided with a water inlet (1263);

wherein the first closure (1261) opens the water inlet (1263) when the piston (124) moves away from the water inlet (1251);

the first closure (1261) closes the water inlet (1263) when the piston (124) moves towards the water inlet (1251).

10. The clean base station of claim 9, wherein said intermittent water spray assembly (120) further comprises a second block piece (1272), said water spray portion (1252) is provided with a second receiving groove (1253), said second block piece (1272) is provided in said second receiving groove (1253), and said second receiving groove (1253) is provided with a water spray opening (1254);

wherein the second closure (1272) closes the water jet (1254) when the piston (124) is moved away from the water jet (1252);

the second shutter (1272) opens the water jet (1254) when the piston (124) moves toward the water jet portion (1252).

11. The cleaning base according to claim 10, characterized in that an end of the water inlet portion (1251) facing away from the water inlet cover (126) is provided with a first stop member (1255), the first stop member (1255) being adapted to block the first closure member (1261) in the first receiving groove (1262); and/or the presence of a gas in the gas,

intermittent type water spray subassembly (120) still include water guide column (127), the first end of water guide column (127) with water spray portion (1252) intercommunication, the second end of water guide column (127) with delivery port (1322) intercommunication, the first end of water guide column (127) is provided with second locating part (1271), first locating part (1255) are used for with second shutoff piece (1272) blocks in second storage tank (1253).

12. The cleaning base station according to any one of claims 1 to 8, wherein the partition plate (130) comprises a side plate (131) and a cover plate (132), the cover plate (132) is arranged on top of the side plate (131) and jointly encloses the clean water chamber (111), and the water outlet (1322) is arranged on the cover plate (132).

13. The base station of claim 12, further comprising a water spraying cover (140), wherein a water guiding trough (1321) is disposed on the cover plate (132), the water spraying cover (140) covers the water guiding trough (1321) and surrounds the water guiding trough (1321) to form a water guiding channel, the water outlet (1322) is communicated with the water guiding trough (1321), a water spraying hole (141) is disposed on the water spraying cover (140), and the water spraying hole (141) faces the cleaning device (200).

14. The cleaning base station according to claim 12, wherein the top of the cover plate (132) is lower than the edge of the peripheral top of the housing (110), the sewage chamber (112) at least partially surrounds the clean water chamber (111), the cover plate (132) is provided with a filler opening (1323) communicated with the clean water chamber (111), and the filler opening (1323) protrudes from the cover plate (132).

15. A cleaning system, characterized in that the cleaning system comprises a cleaning device (200) and a cleaning base station (100) according to any of claims 1-14, the cleaning base station (100) being adapted to clean the cleaning device (200).

16. The cleaning system of claim 15, wherein the cleaning device (200) is an electric cleaning device (200), the cleaning device (200) comprises a floor brush (210), a rotating unit (211) and a cleaning member connected with the rotating unit (211) are arranged on the floor brush (210), the cleaning base station (100) comprises a housing (110) and an intermittent water spraying assembly (120) positioned in the housing (110), and the rotating unit (211) is abutted with the intermittent water spraying assembly (120) so as to drive the intermittent water spraying assembly (120) to spray cleaning liquid when the rotating unit (211) rotates.

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