CN219250066U - Full-automatic water tank of basic station, basic station and intelligent robot of sweeping and washing - Google Patents

Abstract

The application relates to the technical field of sweeping and washing robots, and particularly discloses a base station full-automatic water tank, a base station and an intelligent sweeping and washing robot, wherein the base station full-automatic water tank comprises a tank body; the base station clear water tank is arranged in the box body and is provided with a host clear water tank connecting hole; the base station sewage tank is arranged in the tank body and is isolated from the base station clean water tank side by side along the length direction, and the base station sewage tank is provided with a host sewage tank connecting hole; the clear water inlet assembly is arranged in the box body, is positioned at the lower end of the clear water tank of the base station and is communicated with the clear water tank of the base station; the sewage drainage assembly is arranged in the box body, is positioned at the lower end of the base station sewage tank and is communicated with the base station sewage tank. The clear water is automatically supplemented into the clear water tank of the base station, and the clear water is automatically supplemented into the clear water tank of the host machine, so that full-automatic supply of the clear water is realized; the sewage in the host sewage tank is automatically stored into the base station sewage tank, and the sewage in the base station sewage tank is automatically discharged, so that the full-automatic sewage discharge is realized.

Description

Full-automatic water tank of basic station, basic station and intelligent robot of sweeping and washing

Technical Field

The application relates to the technical field of sweeping and washing robots, in particular to a base station full-automatic water tank, a base station and an intelligent sweeping and washing robot.

Background

With the development of intelligent science and technology, a household intelligent sweeping robot becomes one of indispensable intelligent household equipment, and the intelligent sweeping robot can automatically finish the ground sweeping and mopping operations, so that the household workload of a user is reduced; the intelligent cleaning robot generally comprises a host and a base station, the host is used for synchronous cleaning and mopping operation, and the base station is used for bearing the host at idle time and replenishing and maintaining the host. It should be noted that when the host machine performs a cleaning operation, the front end is usually sprayed with clean water, and the rear end recovers the sewage into the host machine again, so that the host machine is usually required to be configured with a host sewage tank and a host clean water tank, but the existing aesthetic and practical requirements often require that the host machine is designed in a miniaturized manner, which requires that the host clean water tank and the host sewage tank are designed in a miniaturized manner synchronously, which severely limits the operation area of the host machine.

At present, in order to balance the miniaturization requirement of a host and the endurance requirements of a host sewage tank and a clean water tank, a base station clean water tank and a base station sewage tank are generally arranged on a base station, the base station clean water tank is used for automatically replenishing clean water of the host clean water tank, and sewage stored in the host sewage tank is collected and stored through the base station sewage tank; however, although the base station may have a relatively large volume, the user is still required to supplement clean water to the clean water tank of the base station, and the user is required to pour the sewage in the sewage tank of the base station, so that the frequency of the operation is reduced compared with the operation of the clean water tank of the host machine and the sewage tank of the host machine, and full automation of clean water supply and sewage pouring of the intelligent cleaning robot cannot be realized.

Therefore, how to realize full automation of clean water supply and sewage dumping of the intelligent cleaning robot becomes a technical problem to be solved urgently.

Disclosure of Invention

In view of the shortcomings of the prior art, the purpose of the application is to provide a base station full-automatic water tank, a base station and an intelligent sweeping and washing robot, and aims to solve the problem that manual operation is needed for clear water supply and sewage dumping of the intelligent sweeping and washing robot in the prior art.

The technical scheme adopted for solving the technical problem is as follows: a fully automatic water tank for a base station, comprising:

a case;

the base station clean water tank is arranged in the box body and is provided with a host clean water tank connecting hole;

the base station sewage tank is arranged in the tank body, is isolated from the base station clean water tank side by side along the length direction, and is provided with a host sewage tank connecting hole;

the clear water inlet assembly is arranged in the box body, is positioned at the lower end of the clear water tank of the base station and is communicated with the clear water tank of the base station;

the sewage drainage assembly is arranged in the box body, is positioned at the lower end of the base station sewage tank and is communicated with the base station sewage tank.

Optionally, the box includes:

a water tank body;

the water tank body at the upper end of the diaphragm plate is arranged as a storage section, and the water tank body at the lower end of the diaphragm plate is arranged as a connecting section;

the vertical partition plate is arranged in the storage section and integrally formed with the transverse partition plate, and the base station clean water tank and the base station sewage tank are arranged on two sides of the vertical partition plate;

the box cover is arranged at one end of the storage section, which is away from the connecting section;

wherein, clear water inlet subassembly and sewage drainage subassembly set up in junction.

Optionally, the base station cleaning water tank further includes:

the base station clear water inlet is arranged on the diaphragm plate and is communicated with the clear water inlet assembly;

the clear water floating valve is arranged at one end of the clear water inlet of the base station, which is away from the clear water inlet component;

the main machine clear water filtering piece is arranged on the diaphragm plate and is communicated with the main machine clear water tank connecting hole.

Optionally, the clean water inlet assembly includes:

the water supply connecting pipe is used for connecting a water supply source at one end;

the switching inlet tube, the switching inlet tube is used for connecting water supply connecting pipe and basic station clear water inlet.

Optionally, the base station sewage tank further includes:

the sewage filtering piece is sleeved on the diaphragm plate at the periphery of the connecting hole of the host sewage tank;

the negative pressure source connecting piece is arranged on the diaphragm plate and is used for connecting a negative pressure source;

the base station drain is arranged on the diaphragm plate and communicated with the sewage drainage assembly.

Optionally, the negative pressure source connecting piece further comprises a negative pressure connecting port and a negative pressure float valve; the negative pressure connection port is used for being connected with a negative pressure source, the negative pressure floating valve comprises a negative pressure floating body and a negative pressure valve core which is used for sealing the negative pressure connection port and is connected with the negative pressure floating body;

the diaphragm plate at the base station sewage tank is arranged in a non-planar mode towards the end face of the tank cover, and the height of the base station sewage outlet is lowest.

Optionally, the sewage drainage assembly includes:

the base station sewage tank connecting pipe is connected with the base station sewage drain outlet;

the base station sewage pump is connected with the base station sewage tank connecting pipe;

and one end of the blowdown outer pipe is communicated with the base station blowdown pump, and the other end of the blowdown outer pipe is used for discharging sewage.

Optionally, the case cover comprises a water tank cover body, a switch carrier plate, a case cover switch and a case cover body which are sequentially arranged from bottom to top;

the water tank cover body is arranged on the water tank body and is used for sealing the base station clean water tank and the base station sewage tank, and the water tank cover body is provided with a clean water tank cleaning opening, a sewage tank cleaning opening, a first switch connecting part, a second switch connecting part, a third switch connecting part and a fourth switch connecting part which are distributed in a cross shape;

the box cover switch comprises a switch button, a first locking arm, a second locking arm, a third locking arm and a fourth locking arm which are connected to the switch button in a cross shape, and a separation ejection piece arranged on the first locking arm and the third locking arm; the first lock arm, the second lock arm, the third lock arm and the fourth lock arm comprise lock arm bodies, button inclined tables and carrier board clamping tables which are arranged at two ends of the lock arm bodies, and elastic resetting pieces which are arranged in the middle of the lock arm bodies, wherein the button inclined tables are abutted to the switch buttons, and when the switch buttons move downwards, the button inclined tables synchronously move towards the centroid of the switch buttons; the separation ejecting piece comprises a separation guide piece which is -shaped and is abutted against the separation guide piece and the separation elastic piece on the box cover body;

the switch carrier plate is detachably connected with the box cover body, and the box cover switch is arranged on the switch carrier plate; the switch carrier plate is also provided with a separation limiting hole and a lock arm reset baffle; the separation guide piece is movably connected in the separation limiting hole, and the elastic reset piece is abutted between the lock arm body and the lock arm reset baffle;

the case lid body deviates from the one end of switch carrier plate is provided with the handle.

The technical scheme adopted for solving the technical problem is as follows: a base station is used for an intelligent cleaning robot, wherein the base station comprises the base station full-automatic water tank.

The technical scheme adopted for solving the technical problem is as follows: an intelligent cleaning robot, wherein, the intelligent cleaning robot includes the base station full-automatic water tank as described above.

The beneficial effects are that:

the application provides a full-automatic water tank of basic station, basic station and intelligent robot of sweeping and washing, the full-automatic water tank of basic station sets up basic station clear water tank and clear water inflow subassembly in the box, and then stores the clear water to automatic clear water supply to basic station clear water tank, then automatic clear water supply is carried out to host computer clear water tank by the basic station clear water tank, realizes the full-automatic supply of clear water; by arranging the base station sewage tank and the sewage drainage assembly, sewage in the host sewage tank is automatically stored into the base station sewage tank, and the sewage drainage assembly automatically discharges the sewage in the base station sewage tank, so that full-automatic sewage discharge is realized.

Drawings

Fig. 1 is a schematic perspective view of a fully automatic water tank of a base station provided in the present application;

fig. 2 is a schematic perspective view of another view angle of the fully automatic water tank for a base station provided in the present application;

FIG. 3 is a schematic perspective cutaway view of a fully automatic water tank for a base station provided herein;

FIG. 4 is another schematic cross-sectional view of the fully automatic water tank for a base station provided herein;

FIG. 5 is a schematic partial perspective view of a fully automatic water tank of a base station provided in the present application;

fig. 6 is another partial perspective view of the fully automatic water tank for a base station provided in the present application;

FIG. 7 is a partial perspective cutaway schematic view of a fully automatic water tank for a base station provided herein;

fig. 8 is a perspective exploded view of a cover of a tank body of the full-automatic water tank for a base station provided in the present application;

fig. 9 is a schematic perspective exploded view of a cover switch of a fully automatic water tank of a base station provided in the present application;

reference numerals illustrate:

10. full-automatic water tank of base station; 11. a case; 12. a base station water cleaning tank; 13. a base station sewage tank; 14. a clean water inlet assembly; 15. a sewage drainage assembly; 111. a water tank body; 112. a diaphragm; 113. a vertical partition board; 114. a case cover; 115. a storage section; 116. a connection section; 117. a water tank cover; 118. a switch carrier plate; 119. a case cover switch; 110. a case cover body; 1171. a clean water tank cleaning port; 1172. a sewage tank cleaning port; 1173. a first switch connection part; 1174. a second switch connection part; 1175. a third switch connection part; 1176. a fourth switch connection part; 1181. separating the limiting holes; 1182. the locking arm resets the baffle; 1191. a switch button; 1192. a first locking arm; 1193. a second lock arm; 1194. a third locking arm; 1195. a fourth locking arm; 1196. separating the ejector; 1197. a lock arm body; 1198. a button ramp; 1199. the carrier plate clamping table; 119a, an elastic return member; 119b, a separation guide; 119c, separating the elastic member; 1101. a handle; 121. a connecting hole of the main machine clear water tank; 122. a clean water inlet of the base station; 123. a clear water float valve; 125. a clean water filter of the host; 131. a sewage filtering piece; 132. a negative pressure source connection; 133. a base station sewage outlet; 134. a host sewage tank connecting hole; 1321. a negative pressure connection port; 1322. a negative pressure float valve; 1323. a negative pressure floating body; 1324. a negative pressure valve core; 141. a water supply connection pipe; 142. a water inlet pipe is connected in a switching way; 151. a base station sewage tank connecting pipe; 152. a base station sewage pump; 153. and (5) discharging the sewage from the outer pipe.

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, it should be understood that the terms "center," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate an orientation or a positional relationship based on that shown in the drawings, merely for convenience of description and to simplify the description, and do not indicate or imply that the devices or elements referred to 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, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

Referring to fig. 1 to 4 in combination, a base station full-automatic water tank 10 is provided in a first embodiment of the present application, the base station full-automatic water tank 10 is used in a base station of an intelligent cleaning robot, and is used for fully weighing automatic self-replenishing clear water, replenishing clear water into a clear water tank of a host, storing sewage in a sewage tank of the host, and fully automatically discharging sewage. Specifically, the base station full-automatic water tank 10 includes: the device comprises a box body 11, a base station clean water tank 12, a base station sewage tank 13, a clean water inlet assembly 14 and a sewage drainage assembly 15; the base station clean water tank 12 is arranged in the box body 11, and the base station clean water tank 12 is provided with a main machine clean water tank connecting hole 121, so that clean water is supplemented into the main machine clean water tank through the main machine clean water tank connecting hole 121; the base station sewage tank 13 is arranged in the tank 11 and is isolated from the base station clean water tank 12 side by side along the length direction, the base station sewage tank 13 is provided with a host sewage tank connecting hole 134, and sewage in the host sewage tank is transferred into the base station sewage tank 13 through the host sewage tank connecting hole 134; the clean water inlet component 14 is arranged in the box 11, is positioned at the lower end of the base station clean water tank 12, is communicated with the base station clean water tank 12, and further can automatically supplement clean water to the base station clean water tank 12, and does not need to be supplemented by user operation in the use period; the sewage drainage assembly 15 is arranged in the box 11, is positioned at the lower end of the base station sewage tank 13, is communicated with the base station sewage tank 13, and can automatically drain sewage in the base station sewage tank 13 without dumping the sewage by a user operation.

That is, the base station clean water tank 12 and the clean water inlet assembly 14 are arranged in the box body 11, so that clean water is stored, clean water is automatically supplemented into the base station clean water tank 12, and then the base station clean water tank 12 automatically supplements clean water into the main machine clean water tank, so that full-automatic clean water supply is realized; by arranging the base station sewage tank 13 and the sewage drainage assembly 15, sewage in the host sewage tank is automatically stored into the base station sewage tank 13, and the sewage drainage assembly 15 automatically discharges the sewage in the base station sewage tank 13, so that full-automatic sewage discharge is realized.

In some embodiments, the case 11 includes: a tank body 111, a diaphragm 112, a vertical diaphragm 113, and a tank cover 114; the water tank body 111 at the upper end of the diaphragm 112 is provided with a storage section 115, and the water tank body 111 at the lower end of the diaphragm 112 is provided with a connecting section 116, namely, the diaphragm 112 isolates the water tank body 111 into two isolated spaces along the height direction; the vertical partition 113 is disposed in the storage section 115 and integrally formed with the diaphragm 112, and the base station clean water tank 12 and the base station sewage tank 13 are disposed on two sides of the vertical partition 113, that is, the vertical partition 113 separates the storage section 115 into two independent spaces along the length direction, that is, the base station clean water tank 12 and the base station sewage tank 13; the cover 114 is disposed at an end of the storage section 115 facing away from the connection section 116, and it is known that the cover 114 is used for sealing the base station clean water tank 12 and the base station sewage tank 13; the clean water inlet assembly 14 and the sewage drain assembly 15 are disposed at the connection section 116, an area for storing clean water and sewage is disposed at the upper portion of the water tank body 111, and a structure for automatically adding clean water and a structure area for discharging sewage are disposed at the lower portion of the water tank body 111.

Referring to fig. 3 to 4, in some embodiments, the base station cleaning tank 12 includes: a base station clear water inlet 122, a clear water float valve 123 and a host clear water filter 125; the base station clean water inlet 122 is arranged on the diaphragm 112, and the base station clean water inlet 122 is communicated with the clean water inlet assembly 14, so that the clean water inlet assembly 14 can automatically supplement clean water into the base station clean water tank 12 through the base station clean water inlet 122, and automatic clean water addition is realized; the clear water float valve 123 is disposed at one end of the base station clear water inlet 122 away from the clear water inlet component 14, and it can be known that by disposing the clear water float valve 123, it is possible to control clear water in the base station clear water tank 12 to supplement a specific water level in the base station clear water tank 12 at low cost, and automatically close the base station clear water tank 12 to continue water inlet after the clear water is maintained to a specific water level; the main unit clean water filter 125 is disposed on the diaphragm 112 and is communicated with the main unit clean water tank connecting hole 121, so as to ensure the cleanliness of the clean water entering the main unit clean water tank.

Referring to fig. 3-7 in combination, in some embodiments, the clean water intake assembly 14 includes: a water supply connection pipe 141 and a switching water inlet pipe 142; one end of the water supply connection pipe 141 is used for connecting a water supply source, for example, the water supply connection pipe 141 can be directly connected with a tap water pipe, so that clean water is automatically supplemented into the clean water tank 12 of the base station by utilizing the water supply pressure of the existing water supply network on the premise of not additionally configuring a water pump; the switching water inlet pipe 142 is used for connecting the water supply connecting pipe 141 and the base station clean water inlet 122; as can be seen, the clean water inlet assembly 14 only needs to be provided with a pipeline, and no additional water pump is needed, so that the cost of the clean water inlet assembly 14 is effectively reduced, and meanwhile, the volume of the base station full-automatic water tank 10 can be effectively reduced; the water pressure of the existing water supply network is utilized to enter the base station clean water tank 12, and the clean water inlet assembly 14 and the base station clean water tank 12 are controlled to be on-off by the clean water float valve 123.

Referring to fig. 3 to 7 in combination, in some embodiments, the base station sewage tank 13 further includes: a sewage filter member 131, a negative pressure source connection member 132, and a base station drain port 133; the sewage filter 131 is sleeved on the diaphragm 112 at the periphery of the connecting hole 134 of the host sewage tank; as can be seen, the sewage stored in the main sewage tank is mixed with solid garbage, and the sewage filter 131 is disposed at the main sewage tank connecting hole 134, so that when the sewage in the main sewage tank flows out from the main sewage tank connecting hole 134, the sewage is filtered by the sewage filter 131, and the solid garbage is trapped, so that only the liquid or the turbid liquid enters the base station sewage tank 13, and the structure of the sewage drainage assembly 15 is effectively protected; the negative pressure source connecting piece 132 is disposed on the diaphragm 112, and the negative pressure source connecting piece 132 is used for connecting a negative pressure source, and it can be known that the base station sewage tank 13 adsorbs sewage in a host sewage tank into the sewage tank in a negative pressure adsorption manner, specifically, the negative pressure source connecting piece 132 adjusts the base station sewage tank 13 into a negative pressure environment by connecting a negative pressure source (such as a vacuum pump or a fan, etc.), and then transfers the sewage in the host sewage tank into the base station sewage tank 13 through the negative pressure source connecting piece 132; the base station drain 133 is disposed on the diaphragm 112, and the base station drain 133 is in communication with the sewage drain assembly 15, so that after the sewage in the host sewage tank is transferred to the base station sewage tank, the sewage in the base station sewage tank is automatically drained through the base station sewage drain assembly 15, for example, the base station sewage drain assembly 15 can directly drain the sewage into a sewer.

Referring to fig. 3-7 in combination, in some embodiments, the host sewage connection 131 includes a host sewage connection port 1311 and a sewage filter 1312; the host sewage connection port 1311 is connected with the host sewage tank, the sewage filter 1312 is sleeved on the diaphragm 112 at the periphery of the sewage connection port, and it can be known that solid garbage is mixed in the sewage stored in the host sewage tank, and when the sewage in the host sewage tank flows out from the host sewage connection port 1311, the sewage is filtered by the sewage filter 1312, the solid garbage is intercepted, and only liquid or turbid liquid enters the base station sewage tank 13, so that the structure of the sewage drainage assembly 15 is effectively protected.

Referring to fig. 3-7 in combination, in some embodiments, the negative pressure source connection 132 further includes a negative pressure connection port 1321 and a negative pressure float valve 1322; the negative pressure connection port 1321 is used for connecting a negative pressure source, and the negative pressure float valve 1322 includes a negative pressure float 1323, and a negative pressure valve core 1324 that is used for sealing the negative pressure connection port 1321 and is connected to the negative pressure float 1323. It should be noted that, the negative pressure source connector 132 is disposed in the base station sewage tank 13, when sewage flows into the base station sewage tank 13, the negative pressure valve core 1324 is gradually lifted up along with the rise of the sewage level until the negative pressure floating body 1323 closes the negative pressure connection port 1321 when the sewage level reaches the preset water level, and further interrupts the negative pressure source and the base station sewage tank 13 until the negative pressure in the base station sewage tank 13 disappears, and the sewage in the host sewage tank stops entering the base station sewage tank 13.

Referring to fig. 7 in combination, further, the diaphragm 112 at the base station sewage tank 13 is disposed in a non-planar manner toward the end face of the tank cover 114, and the height at the base station sewage drain 133 is the lowest, so as to avoid residual sewage in the base station sewage tank 13.

Referring to fig. 3 to 7 in combination, in some embodiments, the sewage drain assembly 15 includes: a base station sewage tank connection pipe 151, a base station sewage pump 152, and a sewage discharge outer pipe 153, the base station sewage tank connection pipe 151 being connected with the base station sewage discharge outlet 133; the base station sewage pump 152 is connected with the base station sewage tank connecting pipe 151; one end of the sewage discharge outer pipe 153 is communicated with the base station sewage discharge pump 152, and the other end of the sewage discharge outer pipe 153 is used for discharging sewage. It can be seen that the base station sewage pump 152 can effectively drain the sewage in the base station sewage tank 13, and drain the sewage to the sewer through the sewage drain pipe 153, so as to realize automatic sewage dumping of the base station sewage tank 13.

Referring to fig. 8 to 9, in some embodiments, the cover 114 includes a sump cover 117, a switch carrier 118, a cover switch 119, and a cover body 110, which are disposed in sequence from bottom to top; the water tank cover 117 is disposed on the water tank body 111, and is used for sealing the base station clean water tank 12 and the base station sewage tank 13, and a clean water tank cleaning opening 1171, a sewage tank cleaning opening 1172, a first switch connection portion 1173, a second switch connection portion 1174, a third switch connection portion 1175, and a fourth switch connection portion 1176 are disposed on the water tank cover 117; the first switch connection portion 1173, the second switch connection portion 1174, the third switch connection portion 1175 and the fourth switch connection portion 1176 are distributed in a cross shape, so as to provide a guarantee for the stable locking of the vertical cover, the switch carrier 118 and the cover body 110 by the cover switch 119, and simultaneously, the sink cover 117 is fixedly connected to the water tank body 111; the clean water tank cleaning opening 1171 is arranged to facilitate the cleaning of the base station clean water tank 12 by a user, and the clean water tank cleaning opening 1172 is arranged to facilitate the cleaning of the base station clean water tank 13 by a user. The switch carrier plate 118 is detachably connected with the case cover body 110, and the case cover switch 119 is disposed on the switch carrier plate 118; specifically, the switch carrier plate 118 is screwed or fastened to the box cover body 110, so as to facilitate maintenance operation of the box cover switch 119.

The lid switch 119 includes a switch button 1191, a first locking arm 1192, a second locking arm 1193, a third locking arm 1194, a fourth locking arm 1195, and a release tab 1196; the first locking arm 1192, the second locking arm 1193, the third locking arm 1194 and the fourth locking arm 1195 are disposed in a cross shape, and are respectively connected with the switch button 1191; further, the first locking arm 1192, the second locking arm 1193, the third locking arm 1194 and the fourth locking arm 1195 each include a locking arm body 1197, a button ramp 1198, a carrier board clamping platform 1199 and an elastic reset member 119a, the button ramp 1198 and the carrier board clamping platform 1199 are disposed at two ends of the locking arm body 1197, and the elastic reset member 119a is disposed at a middle portion of the locking arm body 1197, thereby; the separating and ejecting member 1196 is disposed on the first locking arm 1192 and the third locking arm 1194; the separation and ejection member 1196 includes a separation guide member 119b disposed in a shape of , and a separation elastic member 119c abutting against the separation guide member 119b and the case cover body 110, so as to facilitate the opening of the case cover 114; the end of the case cover body 110, which is away from the switch carrier 118, is provided with a handle 1101, so as to facilitate the extraction of the base station full-automatic water tank 10.

The switch carrier plate 118 is detachably connected with the case cover body 110, and the case cover switch 119 is disposed on the switch carrier plate 118; specifically, the switch carrier plate 118 is screwed or fastened to the box cover body 110, so as to facilitate maintenance operation of the box cover switch 119. Further, the switch carrier 118 is further provided with a separation limiting hole 1181 and a locking arm reset baffle 1182; the separation guide 119b is movably connected to the separation limiting hole 1181, so as to facilitate opening and installing the case cover 114; the elastic restoring element 119a is abutted between the locking arm body 1197 and the locking arm restoring plate 1182; the button ramp 1198 is abutted against the switch button 1191, when the switch button 1191 moves downward, the button ramp 1198 moves synchronously toward the centroid of the switch button 1191, that is, by pressing the switch button 1191, the first lock arm 1192, the second lock arm 1193, the third lock arm 1194 and the fourth lock arm 1195 all move toward the switch button 1191, and further separate from the first switch connection portion 1173, the second switch connection portion 1174, the third switch connection portion 1175 and the fourth switch connection portion 1176 on the water tank cover 117, and in the process, the elastic reset member 119a is pressed by the cantilever body 1197 and gradually compressed under the action of the cantilever reset plate 1182, when the switch button 1191 is released, the cantilever body 1197 does not apply a force to the elastic reset member 119a, and the elastic reset member 119a resets under the action of the cantilever plate 1182 and is again clamped to the first switch connection portion 1173, the second switch connection portion 1175 and the third switch connection portion 1176 on the water tank cover 117;

the second embodiment of the present application further provides a base station, where the base station is used for an intelligent cleaning robot, and the base station includes the base station full-automatic water tank 10 in the first embodiment of the present application. It can be appreciated that the base station is provided with the base station full-automatic water tank 10 according to the first embodiment of the present application, so that clean water can be fully automatically supplied to the host machine, and sewage in the host machine can be fully automatically discharged, so that the automation level of the base station and the intelligent cleaning robot is remarkably improved.

Referring to fig. 1 in combination, an intelligent cleaning robot is also provided in the third embodiment of the present application, where the intelligent cleaning robot includes the base station full-automatic water tank 10 described in the first embodiment of the present application. It can be appreciated that the intelligent cleaning robot provided in this embodiment can further realize full-automatic clean water supply and sewage drainage by adopting the base station full-automatic water tank 10 provided in the embodiment, and the automation level of the intelligent cleaning robot is remarkably improved.

To sum up, the application provides a full-automatic water tank of basic station, basic station and intelligent robot of sweeping, a full-automatic water tank of basic station, it includes: a case; the base station clean water tank is arranged in the box body and is provided with a host clean water tank connecting hole; the base station sewage tank is arranged in the tank body, is isolated from the base station clean water tank side by side along the length direction, and is provided with a host sewage tank connecting hole; the clear water inlet assembly is arranged in the box body, is positioned at the lower end of the clear water tank of the base station and is communicated with the clear water tank of the base station; the sewage drainage assembly is arranged in the box body, is positioned at the lower end of the base station sewage tank and is communicated with the base station sewage tank. The base station clear water tank and the clear water inlet assembly are arranged in the tank body, so that clear water is stored, clear water is automatically supplemented into the base station clear water tank, and then clear water is automatically supplemented into the main machine clear water tank through the base station clear water tank, so that full-automatic clear water supply is realized; by arranging the base station sewage tank and the sewage drainage assembly, sewage in the host sewage tank is automatically stored into the base station sewage tank, and the sewage drainage assembly automatically discharges the sewage in the base station sewage tank, so that full-automatic sewage discharge is realized.

It is to be understood that the application of the present application is not limited to the examples described above, but that modifications and variations can be made by a person skilled in the art from the above description, all of which modifications and variations are intended to fall within the scope of the claims appended hereto.

Claims (10)

1. A fully automatic water tank for a base station, comprising:

a case;

the base station clean water tank is arranged in the box body and is provided with a host clean water tank connecting hole;

the base station sewage tank is arranged in the tank body, is isolated from the base station clean water tank side by side along the length direction, and is provided with a host sewage tank connecting hole;

the clear water inlet assembly is arranged in the box body, is positioned at the lower end of the clear water tank of the base station and is communicated with the clear water tank of the base station;

the sewage drainage assembly is arranged in the box body, is positioned at the lower end of the base station sewage tank and is communicated with the base station sewage tank.

2. The fully automatic water tank for a base station as claimed in claim 1, wherein the tank body comprises:

a water tank body;

the water tank body at the upper end of the diaphragm plate is arranged as a storage section, and the water tank body at the lower end of the diaphragm plate is arranged as a connecting section;

the vertical partition plate is arranged in the storage section and integrally formed with the transverse partition plate, and the base station clean water tank and the base station sewage tank are arranged on two sides of the vertical partition plate;

the box cover is arranged at one end of the storage section, which is away from the connecting section;

wherein, clear water inlet subassembly and sewage drainage subassembly set up in junction.

3. The base station full-automatic water tank according to claim 2, wherein the base station clear water tank further comprises:

the base station clear water inlet is arranged on the diaphragm plate and is communicated with the clear water inlet assembly;

the clear water floating valve is arranged at one end of the clear water inlet of the base station, which is away from the clear water inlet component;

the main machine clear water filtering piece is arranged on the diaphragm plate and is communicated with the main machine clear water tank connecting hole.

4. A fully automatic water tank for a base station as claimed in claim 3, wherein the fresh water inlet assembly comprises:

the water supply connecting pipe is used for connecting a water supply source at one end;

the switching inlet tube, the switching inlet tube is used for connecting water supply connecting pipe and basic station clear water inlet.

5. The base station full automatic water tank of claim 2, wherein the base station sump further comprises:

the sewage filtering piece is sleeved on the diaphragm plate at the periphery of the connecting hole of the host sewage tank;

the negative pressure source connecting piece is arranged on the diaphragm plate and is used for connecting a negative pressure source;

the base station drain is arranged on the diaphragm plate and communicated with the sewage drainage assembly.

6. The fully automatic water tank for a base station according to claim 5, wherein,

the negative pressure source connecting piece also comprises a negative pressure connecting port and a negative pressure float valve; the negative pressure connection port is used for being connected with a negative pressure source, the negative pressure floating valve comprises a negative pressure floating body and a negative pressure valve core which is used for sealing the negative pressure connection port and is connected with the negative pressure floating body;

the diaphragm plate at the base station sewage tank is arranged in a non-planar mode towards the end face of the tank cover, and the height of the base station sewage outlet is lowest.

7. The fully automatic water tank for a base station as claimed in claim 6, wherein the sewage drain assembly comprises:

the base station sewage tank connecting pipe is connected with the base station sewage drain outlet;

the base station sewage pump is connected with the base station sewage tank connecting pipe;

and one end of the blowdown outer pipe is communicated with the base station blowdown pump, and the other end of the blowdown outer pipe is used for discharging sewage.

8. The full-automatic water tank for a base station according to any one of claims 2 to 7, wherein the tank cover comprises a water tank cover body, a switch carrier plate, a tank cover switch and a tank cover body which are sequentially arranged from bottom to top;

the water tank cover body is arranged on the water tank body and is used for sealing the base station clean water tank and the base station sewage tank, and the water tank cover body is provided with a clean water tank cleaning opening, a sewage tank cleaning opening, a first switch connecting part, a second switch connecting part, a third switch connecting part and a fourth switch connecting part which are distributed in a cross shape;

the box cover switch comprises a switch button, a first locking arm, a second locking arm, a third locking arm and a fourth locking arm which are connected to the switch button in a cross shape, and a separation ejection piece arranged on the first locking arm and the third locking arm; the first lock arm, the second lock arm, the third lock arm and the fourth lock arm comprise lock arm bodies, button inclined tables and carrier board clamping tables which are arranged at two ends of the lock arm bodies, and elastic resetting pieces which are arranged in the middle of the lock arm bodies, wherein the button inclined tables are abutted to the switch buttons, and when the switch buttons move downwards, the button inclined tables synchronously move towards the centroid of the switch buttons; the separation ejecting piece comprises a separation guide piece which is -shaped and is abutted against the separation guide piece and the separation elastic piece on the box cover body;

the switch carrier plate is detachably connected with the box cover body, and the box cover switch is arranged on the switch carrier plate; the switch carrier plate is also provided with a separation limiting hole and a lock arm reset baffle; the separation guide piece is movably connected in the separation limiting hole, and the elastic reset piece is abutted between the lock arm body and the lock arm reset baffle;

the case lid body deviates from the one end of switch carrier plate is provided with the handle.

9. A base station for an intelligent cleaning robot, characterized in that the base station comprises a fully automatic water tank of the base station according to any one of claims 1-8.

10. An intelligent cleaning robot, characterized in that the intelligent cleaning robot comprises a base station full-automatic water tank according to any one of claims 1-8.

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