CN213588188U

CN213588188U - Containing box and cleaning robot

Info

Publication number: CN213588188U
Application number: CN202022223228.0U
Authority: CN
Inventors: 谢晓丹; 杨军
Original assignee: Shenzhen Silver Star Intelligent Technology Co Ltd
Current assignee: Shenzhen Silver Star Intelligent Group Co Ltd
Priority date: 2020-04-30
Filing date: 2020-09-30
Publication date: 2021-07-02
Anticipated expiration: 2030-09-30
Also published as: CN212630682U; CN212816146U; CN214712399U; CN112515574A; CN213588190U; CN212816145U; CN112515576A; CN112515552A; CN213588189U; CN212307738U; CN112515575A

Abstract

The utility model relates to a cleaning machines people field discloses a containing box and cleaning machines people. The containing box is applied to the cleaning robot and comprises a box body, wherein the box body comprises a box, a box cover and a box body sealing ring. The box cover is arranged on the box and surrounds the box into a containing cavity, and the box sealing ring is arranged at the joint of the box cover and the box and seals the joint of the box cover and the box. Even cleaning machines people takes place the slope or inverts, accomodate the liquid of intracavity and will also be prevented outwards to ooze under the effect of box sealing washer, so the utility model provides a containing box can effectively avoid accomodating the drawback that the liquid of intracavity outwards oozes.

Description

Containing box and cleaning robot

The utility model discloses require that the application number that 30 of 04.2020 submitted to the intellectual property office of chinese country is 202020705201.2, the priority of the prior application of title "containing box and cleaning machines people", the content of above-mentioned prior application incorporates in this text with the mode of introducing.

[ technical field ] A method for producing a semiconductor device

The utility model relates to a cleaning machines people technical field especially relates to a containing box and cleaning machines people.

[ background of the invention ]

A cleaning robot is a device having an artificial intelligence system and capable of automatically performing a floor cleaning work in a room. On the one hand, cleaning machines people has alleviateed the intensity of the indoor cleaning of user, and on the other hand, cleaning machines people itself has artificial intelligence system, has certain recreational, and cleaning machines people can enrich user's mental life to a certain extent, so is liked by the user.

Generally, a cleaning robot includes a robot main body, a driving wheel assembly, and a receiving box. Wherein, the containing box is internally provided with a containing cavity for containing paper scraps, food scraps on the ground and dirt such as sewage generated in the cleaning process of the cleaning robot.

Generally, the leakproofness of containing box is poor, leads to the sewage overflow easily when the containing box takes out to leak, is unfavorable for the health, and has reduced user experience.

[ Utility model ] content

The utility model aims at providing a containing box and cleaning machines people aims at improving the leakproofness of containing box.

The utility model provides a its technical problem adopt following technical scheme:

the utility model provides a containing box, is applied to cleaning machines people for accomodate the filth, containing box includes the box, the box lid includes case box, case lid and box sealing washer, the case lid is located case box and with the case box encloses into one and accomodates the chamber, the box sealing washer is located the case lid with the junction of case box is sealed the junction.

Furthermore, the case lid is equipped with first connecting portion and second connecting portion, first connecting portion with the case rotates to be connected, the second connecting portion with the case buckle is connected, so that the tight lid of case lid is located the case.

Further, the case lid towards the one side shaping of case box have with the mounting groove of the top looks adaptation of case box, the top of case box inserts the mounting groove, the box sealing washer inlay locate the top with between the cell wall of mounting groove.

Further, the box body sealing ring is fixed on the top surface of the box and extends in a closed ring shape along the outline of the top surface of the box; alternatively, the first and second electrodes may be,

the box body sealing ring is fixed on the inner surface of the top part and extends in a closed ring shape along the outline of the top surface of the box; alternatively, the first and second electrodes may be,

the box body sealing ring is fixed on the outer surface of the top part and extends in a closed ring shape along the outline of the top surface of the box; alternatively, the first and second electrodes may be,

the box body sealing ring is fixed on the groove wall of the mounting groove and extends to form a closed ring shape along the contour of the mounting groove.

Furthermore, the box body is provided with an air suction channel, the air suction channel is provided with a first outer port and a first inner port, the first outer port penetrates through the bottom wall of the box body and is communicated with the external environment, and the first inner port is communicated with the containing cavity;

the box is equipped with the air-out passageway, the air-out passageway has second outer port and second interior port, the second interior port with accomodate the chamber intercommunication, the second outer port communicates with external environment.

Further, the first inner port and the second inner port both protrude from the bottom wall, and the first inner port is flush with the second inner port.

Further, the containing box still includes:

the cover plate assembly comprises a cover plate, the cover plate is accommodated in the accommodating cavity and can move between a sealing position and an unsealing position, the cover plate seals the air suction channel and the air outlet channel at the sealing position, and the cover plate unseals the air outlet channel and the air outlet channel at the unsealing position; and

the cover plate driving assembly is installed on the box body and used for driving the cover plate to move from the sealing position to the unsealing position.

Furthermore, the cover plate driving assembly comprises a push rod, one end of the push rod is arranged below the cover plate, the other end of the push rod penetrates through the bottom wall of the box body and extends out of the box body, and the push rod can move between a first position and a second position relative to the box body;

in the first position, the cover plate is in the sealing position;

and in the second position, the push rod pushes the cover plate to the unsealing position.

Furthermore, at least part of the bottom wall of the box body is internally concave to form an accommodating groove, and the accommodating groove is communicated with the air suction channel;

the containing box further comprises a sealing ring, and the sealing ring is arranged on the periphery of the containing groove and is in a closed shape.

Furthermore, the containing box is further provided with a first liquid channel and a liquid outlet part which is respectively communicated with the external environment of the box body and the first liquid channel, the first liquid channel is isolated from the containing cavity, and the first liquid channel is communicated with an external liquid supply mechanism.

Further, the containing box further comprises a handle, and the handle is rotatably arranged on the box body.

Furthermore, a limiting groove is formed in the end face, away from the center of the handle, of the end part of the handle;

the axis of the first end of the limiting groove is collinear with the rotation axis of the handle, and the second end of the limiting groove penetrates through the end part; alternatively, the first and second electrodes may be,

the axis of the first end of the handle is deviated the rotation axis setting of handle, the second end of handle extends and link up along the direction of predetermineeing the tip, it is to predetermine the direction the handle rotates the rotation direction to the second preset position from first preset position, wherein, first preset position is the handle is relative the box vertically position, the second preset position is the handle is relative the box parallel position.

Furthermore, the box body is also provided with a guide groove communicated with the containing cavity, and the guide groove extends from the bottom of the containing cavity to the top of the containing cavity;

the accommodating box further comprises a buoy accommodated in the guide groove and a first magnet arranged on the buoy, the buoy can ascend and descend along with the liquid level in the accommodating cavity, and the first magnet is used for being matched with a first Hall element on an external robot body together to detect whether the buoy floats to a preset position or not.

Further, the containing box further comprises a second magnet, the second magnet is installed on the box body, and the second magnet is used for being matched with a second Hall element on an external robot main body together so as to detect whether the containing box is installed on the robot main body or not.

The utility model provides a its technical problem still adopts following technical scheme:

a cleaning robot comprises a robot main body and the containing box, wherein the robot main body is provided with a first groove, and the containing box is contained in the first groove;

the cleaning robot also comprises a first turnover cover, and the first turnover cover is used for opening and closing the opening of the first groove;

one end of the first flip cover is rotatably connected with the robot main body, and the other end of the first flip cover is fixedly connected with the robot main body in a clamping mode.

The utility model has the advantages that:

the utility model provides a cleaning machines people is applied to containing box, it includes the box, and this box includes case box, case lid and box sealing washer. The box cover is arranged on the box and surrounds the box into a containing cavity, and the box sealing ring is arranged at the joint of the box cover and the box and seals the joint of the box cover and the box. Even cleaning machines people takes place the slope or inverts, accomodate the liquid of intracavity and will also be prevented outwards to ooze under the effect of box sealing washer, so the utility model provides a containing box can effectively avoid accomodating the drawback that the liquid of intracavity outwards oozes.

[ description of the drawings ]

One or more embodiments are illustrated in drawings corresponding to, and not limiting to, the embodiments, in which elements having the same reference number designation may be represented as similar elements, unless specifically noted, the drawings in the figures are not to scale.

Fig. 1 is a schematic perspective view of a cleaning robot according to an embodiment of the present invention;

FIG. 2 is a perspective view of the cleaning robot of FIG. 1 in another orientation;

FIG. 3 is a schematic view of the cleaning robot of FIG. 1 with the flip cover open;

fig. 4 is a sectional view of one direction of the cleaning robot of fig. 1;

FIG. 5 is a perspective view of the storage box of FIG. 3 in one direction with the lid open;

FIG. 6 is a perspective view of the storage box of FIG. 3 in another direction with the lid open;

FIG. 7 is a perspective view of the storage case of FIG. 3 in one direction with the cover closed;

FIG. 8 is a cross-sectional view of the storage case of FIG. 3 in one direction;

FIG. 9 is a cross-sectional view of the storage case of FIG. 3 in another orientation;

FIG. 10 is an enlarged view of a portion of FIG. 8 at A;

FIG. 11 is an exploded view of the scrub roller of FIG. 4;

FIG. 12 is a perspective view of the cleaning robot shown in FIG. 1 with the storage box, the liquid storage box and a portion of the housing hidden;

FIG. 13 is a partially exploded schematic view of the roller power assembly of FIG. 12;

FIG. 14 is an enlarged partial view at B of FIG. 6;

fig. 15 is a partially enlarged schematic view at C in fig. 4.

[ detailed description ] embodiments

In order to facilitate understanding of the present invention, the present invention will be described in more detail with reference to the accompanying drawings and specific embodiments. It should be noted that when an element is referred to as being "fixed to"/"mounted to" another element, it can be directly on the other element or one or more intervening elements may be present therebetween. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may be present. The terms "vertical," "horizontal," "left," "right," "inner," "outer," and the like as used herein are for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

In this specification, the term "mounting" includes fixing or limiting a certain element or device to a specific position or place by welding, screwing, clipping, bonding, etc., the element or device may be fixed or movable in a limited range in the specific position or place, and the element or device may be disassembled or not after being fixed or limited to the specific position or place, which is not limited in the embodiment of the present invention.

Referring to fig. 1 to 4, which illustrate a perspective view of a cleaning robot 1 in two directions, a schematic view of the cleaning robot 1 in a state that a flip cover is opened, and a cross-sectional view of the cleaning robot 1 in one direction according to an embodiment of the present invention, the cleaning robot 1 includes a robot main body 100, a storage box 200, a cleaning roller 300, a roller power assembly, a liquid storage box 500, a liquid supply mechanism (not shown), and a driving wheel assembly 600. The robot main body 100 is used to mount and mount the above-described structures. The storage box 200 is used to store dirt. The cleaning roller 300 is disposed below the storage box 200, and the roller power assembly is used for driving the cleaning roller 300 to rotate, so that the cleaning roller 200 cleans the ground and cleans dirt on the ground into the storage box 200. The tank 500 is used to store cleaning liquid, which is applied to the above-described cleaning roller 300 through a liquid supply mechanism to wet the cleaning roller 300, thereby facilitating the floor washing operation of the cleaning roller 300 with respect to the floor. The driving wheel assembly 600 is mounted at the bottom of the robot main body 100, and is used to drive the cleaning robot 1 to move forward, backward or turn. It should be noted that the "dirt" in the present embodiment includes, but is not limited to, sewage, debris, dust, mud and hair generated during the cleaning process of the floor washing robot 1, and the "cleaning liquid" includes, but is not limited to, clean water, detergent and combination thereof.

Referring to fig. 3 in particular, the robot main body 100 includes a housing 110, a first flip 120, and a second flip 130. Wherein, the top of the housing 110 is provided with a first groove 101 and a second groove 102, the first groove 101 is matched with the shape of the containing box 200, and is used for containing the containing box 200; the second recess 102 is adapted to the shape of the liquid storage tank 500, and is used for accommodating the liquid storage tank 500. The first flip 120 is used for opening and closing the opening of the first recess 101, and one end of the first flip is rotatably connected to the housing 110, and the other end of the first flip is fixed to the housing 110 in a clamping manner. Specifically, one end of the first flip cover 120, which is far away from the end rotatably connected with the housing 110, is provided with a first clamping portion, a corresponding position on the housing 110 is provided with a second clamping portion, and when the first clamping portion is matched with the second clamping portion, the first flip cover 120 closes the opening; when the first engaging portion is separated from the second engaging portion, the first flap 120 opens the opening, and the user can take the storage box 200 out of the first recess 101. Similarly, the second flip cover 130 is used for opening and closing the opening of the second groove 102, and one end of the second flip cover is rotatably connected with the housing 110, and the other end of the second flip cover is fixedly clamped with the housing 110; a third clamping part is arranged at one end of the second flip cover 130, which is far away from the end rotatably connected with the shell 110, a fourth clamping part is arranged at the corresponding position on the shell 110, and when the third clamping part is matched with the fourth clamping part, the second flip cover 130 closes the opening; when the third engaging portion is separated from the fourth engaging portion, the second flip 130 opens the opening, and the user can take the liquid storage box 500 out of the second recess 102. Optionally, the opening directions of the first flip cover 120 and the second flip cover 130 are opposite, and during the opening process of the first flip cover 120 and the second flip cover 130, the first flip cover 120 and the second flip cover 130 gradually get close to the central position of the top of the housing 110.

Referring to fig. 5 to 7, the storage box 200 respectively shows a perspective view of the storage box 200 in two directions of a cover-opened state and a perspective view of the storage box 200 in one direction of a cover-closed state, and the storage box 200 includes a box body 210, a cover plate assembly 220, a cover plate driving assembly 230 and a locking assembly 240. The box 210 is provided therein with a storage chamber 201, and the storage chamber 201 is used for storing dirt. The box 210 is further provided with a suction channel 202 and an outlet channel 203, wherein the suction channel 202 is respectively communicated with the external environment of the box 210 and the storage cavity 201, and the outlet channel 203 is respectively communicated with the external environment of the storage cavity 201 and the box 210. The cover plate assembly 220 is accommodated in the accommodating cavity 201 and can move between a sealing position and a unsealing position, wherein the sealing position seals the air suction channel 202 and the air outlet channel 203, and the unsealing position unseals the air suction channel 202 and the air outlet channel 203. The cover plate driving assembly 230 is used for driving the cover plate assembly 220 to move from the sealing position to the unsealing position. A locking assembly 240 is connected to the cover assembly 220 and the housing 210, respectively, for maintaining the cover assembly 220 in a sealed position. For the sake of understanding, the detailed structure of the housing 210, the cover assembly 220, the cover driving assembly 230 and the locking assembly 240 will be described in turn. Next, a specific structure of the case 210 will be described in detail.

Referring to the box 210, referring to fig. 5 and 6, the box 210 includes a box 211 and a box cover 212. The box 211 is a box-shaped structure with no top, and includes a bottom wall 2111 and a side wall 2112 extending from an edge of the bottom wall 2111. The cover 212 covers the opening of the box 211 and encloses the storage chamber 201 together with the box 211, that is: the bottom wall 2111 forms a bottom wall of the case 210, the side walls 2112 form side walls of the case 210, and the lid 212 forms a top wall of the case 210. In this embodiment, the cover 212 has a first connecting portion 2121 and a second connecting portion 2122, the first connecting portion 2121 is rotatably connected to the box 211, and the second connecting portion 2122 is connected to the box 211 by a snap-fit connection, so that the cover 212 is tightly covered on the box 211. The user can open the receiving chamber 201 by separating the second connecting portion 2122 from the case 211, thereby cleaning up the dirt in the receiving chamber 201. Alternatively, the cover 212 is a flat rectangular parallelepiped, and the first connecting portion 2121 and the second connecting portion 2122 are respectively disposed on two opposite side surfaces of the cover 212; it is understood that, in other embodiments of the present invention, the first connecting portion 2121 and the second connecting portion 2122 may be disposed on two adjacent sides of the cover 212.

Further, in order to enhance the sealing effect between the box cover 212 and the box 211 and prevent the sewage in the storage chamber 201 from overflowing from the joint between the box cover 212 and the box 211, the storage box 200 further includes a box sealing ring 213, and the box sealing ring 213 is disposed at the joint between the box cover 212 and the box 211 and seals the joint. The case seal 213 may be a sealing rubber ring, or may be a sealing layer formed by sealing glue, such as UV-curable glue.

Specifically, referring to fig. 5, the cover 212 has a mounting groove 2123 formed on a surface facing the box 211, the mounting groove 2123 is adapted to the top of the box 211, the top of the box 211 is inserted into the mounting groove 2123, and the box sealing ring 213 is inserted between the top of the box 211 and a wall of the mounting groove 2123. In this embodiment, the box sealing ring 213 is fixed on the top surface of the box 211, i.e. the surface facing the box cover 212, and extends in a closed ring shape along the contour of the top surface of the box 211; when the case cover 212 covers the case 211, the case packing 213 seals a joint between the two. It should be understood that the location of the box sealing ring 213 is not limited to the top surface of the box 211, and it can also be located at other locations, so long as it can seal the connection between the box 211 and the box cover 212; for example, in some other embodiments of the present invention, the box sealing ring 213 is fixed on the outer surface of the top of the box 211 and extends in a closed ring shape along the contour of the top surface of the box 211; for another example, in other embodiments of the present invention, the box sealing ring 213 is fixed to the inner surface of the top of the box 211 and extends in a closed ring shape along the contour of the top surface of the box 211; for example, in other embodiments of the present invention, the box sealing ring 213 is fixed to the wall of the mounting groove 2123 and extends in a closed ring shape along the contour of the top surface of the box 211.

Referring to fig. 6 and 7, the box 210 further has an air suction channel 202 and an air outlet channel 203. Wherein, the air suction channel 202 has a first outer port 2022 and a first inner port 2021, the first outer port 2022 penetrates the bottom wall 2111 of the box 211 and communicates with the external environment, the first outer port 2022 is a suction end of the box 210 in the process of containing dirt, and corresponds to the cleaning roller 300; the first inner port 2021 is provided between the bottom wall of the box 211 and the cover 212 and communicates with the housing chamber 201. The outlet duct 203 has a second inner port 2031 and a second outer port 2032, the second inner port 2031 is provided between the bottom wall 2111 of the box 211 and the box cover 212 and communicates with the housing chamber 201, and the second outer port 2032 communicates with the external environment and is an outlet of the air flow in the housing chamber 201. In this embodiment, the box 211 is formed with an air suction portion 2113 and an air outlet portion 2114 accommodated in the accommodating chamber 201. The air suction portion 2113 is fixed to the bottom wall of the box 211, one end of the air suction passage 202 penetrates the end of the air suction portion 2113 away from the bottom wall 2111 to form the first inner port 2021, and the other end penetrates the bottom wall 2111 to form the first outer port 2022. The air outlet portion 2114 is also fixed to the bottom wall 2111 of the box 211, one end of the air outlet channel 203 penetrates through the air outlet portion 2114 and is far away from the bottom wall 2111 to form a second inner port 2031, and the other end penetrates through the bottom wall 2111 to form a second outer port 2032. Optionally, the second inner port 2031 comprises a plurality of small sized vents to allow airflow therethrough on the one hand, while preventing the passage of large volumes of dirt thereon on the other hand. Further optionally, the first inner port 2021 and the second inner port 2031 both protrude from the bottom wall 2111 of the box 211 and are disposed flush with each other. Preferably, the cross-sectional profile of the suction channel 202 gradually tapers from the first outer port 2022 to the first inner port 2021; the portion of the suction channel 202 near the first external port relative to the bottom wall of the box 210 is disposed at an obtuse angle, which can make the airflow enter the suction channel 202 more smoothly from the outside of the box 210 to a certain extent, and reduce the air loss caused by over-turning (i.e. over-turning angle) of the airflow. In addition, the specific location of the second external port 2032 depends on the layout of the components inside the robot main body 100; in other embodiments of the invention, the second external port 2032 may also be provided in a side wall 2112 of the cassette 211.

Next, a detailed description will be given of the cap plate assembly 220.

Referring to fig. 5 and 6, in conjunction with other figures, the cover plate assembly 220 includes a cover plate 221, the cover plate 221 is a flat plate-shaped structure and is accommodated in the accommodating cavity 201, and the cover plate 221 is movable between a sealing position and an unsealing position to seal or unseal the air suction channel 202 and the air outlet channel 203. Specifically, referring to fig. 12, the cleaning robot 1 further includes a blower assembly 700 having an air inlet 710 connected to the second external port 2032, preferably, a sealing ring is disposed at a connection between the second external port 2032 and the air inlet 710 to prevent air leakage; at the sealing position, the cover plate 221 integrally covers and seals the first inner port 2021 and the second inner port 2031, and at this time, the sewage in the accommodating cavity 201 cannot overflow to the outside of the box body 210 through the air suction channel 202 and the air outlet channel 203, so that safety accidents caused by overflow of the sewage are avoided; in the unsealing position, the cover plate 221 unseals the first inner port 2021 and the second inner port 2031, and the fan assembly 700 can exhaust air from the box 210, so that the first outer port 2022 is in a negative pressure state, which is convenient for sucking dirt on the ground and the cleaning roller 300.

In this embodiment, the cover 221 is rotatably coupled to the housing 210, i.e., the cover 221 is rotatable between a sealed position and an unsealed position. Specifically, the bottom wall and the sidewall of the box 211 are recessed to form a boss 2115, one end of the cover 221 is rotatably connected to the upper surface of the boss 2115, and the other end can pivot around the end to seal or unseal the first inner port 2021 and the second inner port 2031. Alternatively, the direction of the first inner port 2021 pointing to the second inner port 2031 is parallel to the rotation axis X of the cover 221, so that the free end of the cover 221 can move up and down along the direction shown in the figure to synchronously seal or unseal the first inner port 2021 and the second inner port 2031. It is understood that in other embodiments of the present invention, the cover plate 221 may be designed to rotate about the illustrated Y-axis, Z-axis, or other directions. Preferably, the first inner port 2021 is flush with the second inner port 2031, such that when the cover 221 is in the sealed position, one end is carried by the boss 2115 and the other end is carried by the first inner port 2021 and the second inner port 2031. Preferably, in order to enhance the sealing effect of the cover plate 221 on the first inner port 2021 and the second inner port 2031, an elastic sealing element (not shown), such as a rubber sheet or a sealing ring, is fixedly disposed at an end of the cover plate 221 facing the first inner port 2021 and the second inner port 2031, so as to seal the connection between the cover plate 221 and the first inner port 2021 and the second inner port 2031. It should be understood that, in other embodiments of the present invention, the cover 221 may be connected to the box 210 by other means, such as sliding connection, only by ensuring that it can move back and forth between the sealing position and the unsealing position to seal or unseal the air suction channel 202 and the air outlet channel 203, but is not limited to the rotating connection in this embodiment.

Further, in order to avoid that in the process of exhausting air from the storage box 200 by the fan assembly 700, the sewage, garbage and other contaminants entering the storage cavity 201 from the air suction channel 202 directly enter the air outlet channel 203 and move to the inside of the robot main body 100 through the second external port 2032, thereby causing a safety accident to occur to the floor cleaning robot 1, the cover plate assembly 220 further includes a partition plate 222. Specifically, with continued reference to fig. 5 and other figures, one end of the partition 222 is fixed to the cover 221, and the other end extends toward the bottom 2111 of the box 211, and the partition 222 is at least partially located between the first inner port 2021 and the second inner port 2031; dirt such as sewage and garbage entering the receiving cavity 201 from the air suction channel 202 falls into the bottom of the receiving cavity 201 under the blocking action of the partition 222, and the air flow passes over the edge (e.g. bottom and side) of the partition 222 and flows to the fan assembly 700 through the air outlet channel 203. It should be noted that the partition 222 not only can block dirt, but also can accelerate the airflow in the storage cavity 201, thereby enhancing the adsorption force of the storage box 200 on the dirt on the floor and the dirt on the cleaning roller. Preferably, the air outlet channel 203 is further provided with a filter for preventing passage of dirt, while it allows passage of an air flow, preferably a filter cotton.

The cover plate driving assembly 230 will be described in detail below.

Referring to fig. 5, in conjunction with other figures, the cover driving assembly 230 is mounted to the box 211 of the housing and is used for driving the cover 221 to move from the sealing position (not shown) to the unsealing position shown in fig. 5. Specifically, the cover plate drive assembly 230 includes a push rod 231 and a seal 232. The push rod 231 is arranged below the cover plate 221, the other end of the push rod penetrates through the bottom wall of the box body and extends out of the box body, and the push rod can move relative to the box body and move between a first position and a second position; wherein, in the first position, the cover 221 is in a sealed position, i.e., the free end of the cover 221 is carried by the first inner port 2021 and the second inner port 2031; in the second position, the pushing rod 231 pushes the cover 221 to the unsealing position, and the pushing rod 231 is closer to the top wall of the box 210 in the second position than in the first position. In this embodiment, the case 210 is formed with a through hole (not shown) that penetrates through the boss 2115 and the bottom wall 2111 of the case 211 and communicates with the receiving cavity 201, and the push rod 231 is disposed in the through hole and can at least partially penetrate through the through hole to move between the first position and the second position to push the cover 221; it should be understood that the installation manner of the pushing rod 231 is not limited to the above-mentioned manner, for example, in some other embodiments of the present invention, it may be rotatably installed on the box 210 and can be ensured to push the cover 221 to the unsealing position. It is worth mentioning that the process of the cover 221 moving from the unsealing position to the sealing position may be reset under the action of gravity; the restoring force can also be achieved by the pulling action of the push rod 231, and at this time, the push rod 231 and the cover plate 221 are in a physical connection relationship, and how to restore the cover plate 221 is not particularly limited in the present invention. The sealing member 232 is embedded between the outer wall of the push rod 231 and the inner wall of the through hole, and is used for sealing the connection between the push rod 231 and the box 210, so as to prevent sewage from overflowing from the connection. In other embodiments of the present invention, the push rod 231 may be disposed on a side of the first inner port (or the second inner port) facing away from the boss 2115; however, in contrast, the push rod 231 is disposed between the connection end of the cover 221 (the end of the cover connected to the box, hereinafter referred to as the connection end) and the first inner port 2021 (or the second inner port) so that the push rod 231 can push the cover 221 to open at a larger angle with a smaller pushing distance, and therefore, in this embodiment, the push rod 231 is preferably disposed on the boss 2115, i.e., between the connection end and the first inner port 2021. Preferably, the push rod 231 is disposed near the connection end of the cover plate, which has a better effect of lifting the other end of the cover plate 221. In addition, it should be noted that the through hole penetrates through the boss 2115 and the bottom wall of the box 210, and since the boss 2115 is formed by recessing the bottom wall of the box 211 in the present embodiment, the through hole actually penetrates through the bottom wall of the box 210 in the present embodiment; of course, in other embodiments of the present invention, the boss 2115 may not be formed by an indent of the bottom wall of the box 210, but may be a solid structure, in which case, the boss 2115 and the bottom wall of the box 210 are independent, and the through holes actually penetrate through the boss 2115 and the bottom wall of the box 210.

In this embodiment, the cleaning robot 1 drives the push rod 231 from the first position to the second position by the driving wheel assembly 600. For ease of understanding, the specific structure of the drive wheel assembly 600 will be described first. Referring to fig. 4 in conjunction with other figures, the driving wheel assembly 600 includes a wheel arm 610, wherein the wheel arm 610 is rotatably mounted to the robot body 100 and at least partially extends out of the bottom of the robot body 100. Specifically, the wheel arm 610 includes a base arm 611 and a driving wheel 612 rotatably mounted to the base arm 611. Wherein, an end of the base arm 611 far from the driving wheel 612 is rotatably installed inside the robot main body 100 through a rotating shaft, and both ends of a tension spring, not shown, are respectively connected with the base arm 611 and the robot main body 100, so that the wheel arm 610 can be kept stable relative to the robot main body 100 in a stationary state. The bottom of the robot body 100 is disposed away from the driving wheel 612, so that the bottom of the driving wheel 612 at least partially extends out of the robot body 100. When the cleaning robot 1 falls to the ground, the free end of the wheel arm 610 rotates clockwise in the figure relative to the robot main body 100, that is, the robot main body 100 sinks a set distance relative to the free end of the wheel arm 610; conversely, when the cleaning robot 1 lifts off the floor, the free end of the wheel arm 610 rotates counterclockwise in the figure with respect to the robot main body 100, that is, the robot main body 100 is lifted a set distance above the free end of the wheel arm 610.

The free end of the wheel arm 610 is provided with a protruding part 613, and the protruding part 613 is specifically arranged on the base arm 611 and can have a separation position and an engagement position along with the movement of the wheel arm 610; in the disengaged position, the push rod 231 is in the first position; in the engaged position, the protrusion 613 drives the push rod 231 to the second position by driving the bottom of the push rod 231. In the state where the wheel arm 610 is located at the separated position, the wheel arm 610 protrudes further from the bottom of the robot main body 100 than the state where the wheel arm 610 is located at the engaged position where the protruding portion 613 is located.

Further, to facilitate the installation of the wheel arm 610, the driving wheel assembly 600 further includes a wheel bracket 620, and the wheel bracket 620 is fixed inside the housing 110 and receives the base arm 611 and the top portion of the driving wheel 612, so as to prevent the rotation of the driving wheel 612 from interfering with the lines, pipes, etc. inside the robot main body 100. One end of the wheel arm 610 is rotatably mounted to the wheel bracket 620, and the wheel bracket 620 is provided with a space through which the protrusion 613 passes, so that the protrusion 613 can move with the wheel arm 610 to have the engaging position and the disengaging position.

Further, in consideration of a certain gap between the wheel arm 610 and the push rod 231, if the push rod 231 is directly contacted by the protrusion 613, the protrusion 613 needs to be designed to be long enough, which makes the detachment and installation of the driving wheel assembly 600 extremely difficult, and to overcome this defect, the cover driving assembly 230 further includes the rotating member 233. Specifically, referring to fig. 4, the rotating member 233 is integrally formed in a plate-like structure, and is disposed below the push rod 231 and the through hole, one end of the rotating member 233 is rotatably mounted in the robot main body 100, and the other end is supported by the protrusion 613. When the protruding portion 613 is located at the engaging position, the protruding portion 613 drives the rotating member 233 to rotate, so that the rotating member 233 pushes the push rod 231 to the second position, thereby driving the cover plate 221 to move to the unlocking position. It should be noted that, in the present invention, when the push rod 231 is located at the first position, the connection relationship between the push rod 231, the rotating member 233 and the protruding portion 613 is not particularly limited; when the push rod 231 is located at the first position, the push rod 231 may be supported by the housing 210, for example, the boss 2115 is formed with a supporting slot, and the outer wall of the push rod 231 is formed with a supporting flange which is supported and supported in the supporting slot, at this time, the push rod 231 and the rotating member 233 may have no connection relation; the push rod 231 may also be supported by the sealing member 232, and at this time, the push rod 231 may have a connection relationship with the rotating member 233; the push rod 231 may also be supported by the rotating member 233, in which case there is always a physical connection between the push rod 231 and the rotating member 233, such as an abutment, a hinge, a sliding connection, etc.

The locking assembly 240 is described in detail below.

Referring to fig. 5 and 6, the locking assembly 240 is connected to the cover assembly 220 and the housing 210 to maintain the cover 221 in the sealing position. In this embodiment, the locking assembly 240 includes a first magnetic member 241 and a second magnetic member 242. The first magnetic member 241 is mounted on the cover 221, and the second magnetic member 242 is mounted on the box 210 and disposed near the first inner port 2021 or the second inner port 2031; the first magnetic member 241 and the second magnetic member 242 are used for attracting each other to maintain the cover plate 221 in the sealing position. Of course, the first magnetic member 241 may be disposed on the partition 222. Furthermore, it should be understood that in other embodiments of the present invention, the locking assembly 240 may have other configurations as long as it can maintain the cover plate 221 in the sealing position; for example, in some other embodiments of the present invention, the locking assembly 240 includes a compression spring, which is disposed between the cover 221 and the top wall of the box 210, and has one end abutting against the cover 221 and the other end abutting against the top wall of the box 210; for another example, in other embodiments of the present invention, the locking assembly 240 includes a torsion spring, which is sleeved on the pivot of the box 210 and the connecting end of the pivoting cover 221, and one end of the torsion spring abuts against the cover 221 and the other end abuts against the box 210; for example, in still other embodiments of the present invention, the locking assembly 240 may further include at least two of the first magnetic member 241 and the second magnetic member 242, a compression spring and a torsion spring, which are paired as described above, so as to enhance the resetting effect of the cover plate 221 during moving from the unsealing position to the sealing position, so as to overcome the defect that the cover plate 221 cannot be successfully reset to the sealing position due to the dead locking of the push rod 231 during descending in some cases.

Referring to fig. 11, the cleaning roller 300 is shown in an exploded view, and referring to fig. 4 to 6, the cleaning roller 300 is mounted in the housing 110 and located below the storage box 200, the bottom wall of the first groove 101 is provided with a through clearance groove at a position corresponding to the cleaning roller 300, and the cleaning roller 300 at least partially penetrates through the clearance groove and extends into the first groove 101. The bottom 2111 of the housing 210 is at least partially recessed to form an accommodating groove 204 extending along the setting direction P, and the top of the circumferential surface of the cleaning roller 300 is accommodated in the accommodating groove 204 and disposed adjacent to the wall of the accommodating groove 204. Alternatively, the set direction P is parallel to the axial direction of the cleaning roller 300; preferably, the groove wall of the storage groove 204 has an arc shape in a cross section perpendicular to the setting direction P, and the circumferential surface of the cleaning roller 300 is fitted to the groove wall of the storage groove 204. In this embodiment, the cleaning roller 300 includes a rotating shaft 310 and a flannelette 320 sleeved on the rotating shaft 310; the rotation shaft 310 is rotatably mounted to the robot main body 100.

Referring to fig. 12 and 13, the roller power assembly 400 includes a base 410, a rotating mechanism 420 and an output terminal 430, and the roller power assembly 400 is shown in a perspective view of the cleaning robot 1 with the storage box 200, the storage box 500, and a part of the housing 110 hidden therein, and in an exploded view of the roller power assembly 400. Wherein, the base 410 is installed in the robot main body 100, and is used for installing the rotating mechanism 420; the rotation mechanism 420 is used for providing a rotation output through an output shaft (not shown); the output terminal 430 is fixed to the output shaft, and is used for being meshed with a matching part (not shown in the figure) matched with the output terminal 430 on the end part of the rotating shaft 310 of the cleaning roller 300 so as to realize circumferential fixation, and further, the cleaning roller 300 is driven to rotate so as to realize cleaning of the ground. In this embodiment, the output terminal 430 is in a cross shape, and the matching portion on the rotating shaft 310 is a cross-shaped groove.

Further, in order to facilitate the user to mount and dismount the cleaning roller 300 without directly contacting the hand with the cleaning roller 300, the cleaning robot 1 further includes a roller handle 330. Specifically, referring back to fig. 11 and 12, in conjunction with other figures, the roller handle 330 is disposed at an end of the cleaning roller 300 away from the output terminal 430, and is fastened to the robot main body 100, and an end of the cleaning roller 300 away from the output terminal 430 is rotatably mounted to the roller handle 330 through a bearing 340. Then, the user only need go on through roller handle 330 when dismouting cleaning roller 300 can, avoided the inconvenient experience of the last sewage of contact cleaning roller 300.

Further, in order to improve the sealing performance of the air path of the cleaning robot 1 and enhance the suction effect of the cleaning robot 1 on the dirt on the floor, the storage box 200 further includes a sealing ring 250, and the cleaning robot 1 further includes a plurality of sealing rubber rings 350. Specifically, referring to fig. 7, the sealing ring 250 is disposed on the periphery of the receiving groove 204 and has a closed shape. The first groove 101 has a mounting surface corresponding to the sealing ring 250, when the storage box 200 is stored in the first groove 101, the sealing ring 250 abuts against the mounting surface of the first groove 101, and the sealing connection between the periphery of the storage groove 204 of the storage box 200 and the mounting position of the first groove 101 is realized, so that external air is prevented from entering the storage groove 204 from a gap at the contact position of the storage box 200 and the mounting surface of the first groove 101, that is, wind power provided by the fan assembly 700 is prevented from being dispersed to an object in the first groove 101 for adsorption, and the adsorption effect of the cleaning robot 1 on the ground dirt is improved.

Specifically, the sealing ring 250 has a first side glue section, a second side glue section, and two arc glue sections respectively connecting two ends of the first side glue section and the second side glue section corresponding to the periphery of the receiving groove 204. Correspondingly, the mounting surface of the first groove 101 has a first side mounting surface, a second side mounting surface, and two arc-shaped mounting surfaces connecting two ends of the first side mounting surface and the second side mounting surface, wherein the first side rubber section is supported and abutted on the first side mounting surface, the second side rubber section is supported and abutted on the second side mounting surface, and the two arc-shaped rubber sections are respectively supported and abutted on the two arc-shaped mounting surfaces, so that the air tightness around the accommodating groove 204 is ensured, and the suction force of the suction channel on the accommodating groove 204 is further improved.

The plurality of seal rubber rings 350 includes a first seal rubber ring 351 and a second seal rubber ring 352.

In order to install the roller handle 330 in the first groove 101, the side wall of the first groove 101 is provided with a slot, the slot penetrates through a part of the installation surface, namely the slot penetrates through a part of the arc-shaped bearing surface, in order to avoid the air tightness damage of the slot, one end part of the roller handle 330 is provided with a first sealing rubber ring 351, the end part is inserted into the slot, so that one end of the cleaning roller can be rotatably borne on the side wall of the first groove 101, wherein the first sealing rubber ring 351 seals the installation connection part of the end part and the slot, and therefore the air tightness is ensured by sealing the slot part connected with the arc-shaped bearing surface.

Further, first sealing rubber ring 351 has the concatenation face, and the arc setting is personally submitted in this concatenation, and then concatenation face and the concatenation of arc loading end connect into complete arc, and a sealing washer 250's arc is glued the section and is spliced a face adaptation butt, has further improved the gas tightness.

The other end of the roller handle 330 forms a handle portion, which is convenient for the user to directly lift the end of the cleaning roller to take out the cleaning roller, as shown in fig. 11.

Further, the roller handle 330 is integrally V-shaped, the first sealing rubber ring 351 is nested and covers the small end of the roller handle, and the handle portion is arranged at the large end of the roller handle. The slots are positioned to correspond to the roller handles 330.

Referring to fig. 13, in combination with other figures, the second rubber sealing ring 352 is installed on the base 410 of the roller power assembly 400, specifically, the base 410 includes an output ring wall 411 annularly installed on the periphery of the output terminal 430, the second rubber sealing ring 352 is sleeved on the output ring wall 411, the output terminal 430 penetrates through the groove wall of the first groove 101, extends into the first groove 101, and is connected to the other end of the cleaning roller, and the second rubber sealing ring 352 is used for sealing the connection between the output terminal 430 and the robot main body, so as to prevent water vapor from entering the robot main body from the penetration of the groove wall of the output terminal 430. Further, the output terminal 430 is located below an arc-shaped carrying surface to avoid affecting the air tightness around the receiving cavity 204.

Of course, in other embodiments of the present invention, the second sealing rubber ring 352 may be disposed below the storage box 200 and at least partially abut against a wall of the storage groove 204, which may also prevent outside air from entering the storage groove 204 from an end of the storage groove 204.

Referring to fig. 3, the tank 500 is used for containing cleaning liquid, and the cleaning liquid is applied to the cleaning roller 300 by a liquid supply mechanism not shown. Specifically, a liquid storage cavity (not shown) is disposed inside the liquid storage cavity 500, and the storage box 200 is provided with a first liquid channel and a liquid outlet portion respectively communicating the first liquid channel with the external environment of the box body 210; wherein the first fluid passage is isolated from the receiving chamber 201. The liquid supply mechanism comprises a liquid inlet end communicated with the liquid storage cavity and a liquid outlet end communicated with the first liquid channel, and the cleaning liquid flowing out of the liquid storage cavity sequentially passes through the liquid inlet end of the liquid supply mechanism, the liquid outlet end of the liquid supply mechanism, the first liquid channel and the liquid outlet part, then flows to the flannelette 320 of the cleaning roller 300 and wets the flannelette 320.

Referring to fig. 8 to 10, the first liquid path is shown in a cross-sectional view of the storage box 200 in two directions and a partially enlarged schematic view at a, and in combination with other figures, the first liquid path 205 is disposed in the storage tank 204, and along the advancing direction of the cleaning robot 1, the first liquid path 205 is located in front of the axis of the cleaning roller 300, and the first outer port 2022 is located behind the axis of the cleaning roller 300. In this embodiment, the first fluid passage 205 is defined by a surrounding member 260 and a wall of the receiving groove 204. Specifically, the groove wall of the accommodating groove 204 is recessed to form a strip-shaped groove structure extending along the axial direction of the cleaning roller 300; the enclosing element 260 comprises two opposite side portions 261 and a bottom portion 262 connecting the two side portions 261, the side portions 261 and the bottom portion 262 are both arranged along the axial direction of the cleaning roller 300, and one end of the side portion 261, which is far away from the bottom portion 262, extends into the strip-shaped groove structure and is fixed with the groove wall of the accommodating groove 204, so that the enclosing element 260 and the groove wall of the accommodating groove 204 jointly enclose the first liquid channel 205. Optionally, two opposite guide grooves 2041 are formed in the groove wall of the accommodating groove 204 in the strip-shaped groove structure, and the guide grooves 2041 extend in the axial direction of the cleaning roller 300; accordingly, the end of the side portion 261 remote from the bottom portion 262 has a guide bar 2611 matching with the guide groove 2041, and each guide bar 2611 is inserted into one corresponding guide groove 2041. The liquid outlet portion 206 is disposed on the enclosing member 260, and is respectively communicated with the first liquid channel 205 and the receiving groove 204, so that the cleaning liquid in the first liquid channel 205 can enter the receiving groove 204 to wet the cleaning roller 300. In this embodiment, the liquid outlet portion 206 is disposed on one of the two side portions 261 far away from the suction channel 202, that is, the liquid outlet portion 206 is disposed on one side of the first liquid channel 205 far away from the first outer port 2022, and correspondingly, the side portion 261 far away from the suction channel 202 is recessed toward the other side portion 261, so that a gap is formed between the side portion 261 far away from the suction channel 202 and the sidewall of the receiving groove 204 for the cleaning liquid to pass through. It is worth mentioning that the provision of the liquid outlet 206 at one side portion away from the suction channel 202 aims to reduce the probability of the liquid outlet 206 being clogged by dirt on the cleaning roller 300 as much as possible. It is understood that in other embodiments of the present invention, the outlet 206 can be disposed near the side 261 or the bottom 262 of the suction channel 202. Optionally, the liquid outlet portion 206 includes a plurality of liquid outlet holes, and the liquid outlet holes are arranged at intervals along the extending direction of the cleaning roller 300; it is understood that in other embodiments of the present invention, the liquid outlet portion 206 may also be a long and narrow through slot or other structures. In addition, the first fluid passage 205 may be a hollow channel formed in the bottom 2111 of the box body, or a conduit fixed on the wall of the receiving groove 204, as long as it is isolated from the receiving cavity 201.

Optionally, to adapt to the layout of the components in the housing 110, the accommodating groove 204 has a first side 2042 and a second side 2043 extending in the axial direction of the cleaning roller 300 and having different heights, the first side 2042 and the second side 2043 are disposed opposite to each other along the traveling direction of the cleaning robot 1, and the first side 2042 is disposed protruding from the second side 2043; the first side 2042 is located rearward of the second side 2043 in the direction in which the cleaning robot 1 advances. The first outer port 2022 is disposed between the first side 2042 and the axis of the cleaning roller 300, i.e., the first outer port 2022 is disposed between the first side 2042 and the top of the accommodating groove 204; since the first side 2042 is closer to the ground and the first outer port 2022 is closer to the first side 2042, it is easier for dirt to climb along the wall of the receiving groove 204 from the side to enter the suction channel 202. The first fluid passage 205 is disposed between the second side 2043 and the top of the receiving groove 204. That is, the first external port 2022 is disposed between the first side 2042 and the first fluid passage 205.

Further, the storage box 200 further includes a pressing portion to draw dirt on the circumferential surface of the cleaning roller 300 into the storage chamber 201 as much as possible and to reduce the possibility of the liquid outlet 206 being blocked. Specifically, referring to fig. 10, in conjunction with other figures, the scraping portion 270 is fixed on a wall of the accommodating groove 204, and is disposed near the first outer port 2022 and between the first outer port 2022 and the first liquid channel 205. The scraping part 270 is a convex structure, and is configured to at least partially embed into the cleaning roller 300 when at least a portion of the cleaning roller 300 is received in the receiving slot 204, so as to scrape dirt on the cleaning roller 300, and the dirt is sucked into the receiving cavity 201 through the suction channel 202 under the suction action of the fan assembly 700; at the same time, the scraping portion 270 also functions to separate the first outer port 2022 from the first fluid channel 205, so as to prevent the dirt entering the suction channel 202 from passing through the scraping portion 270 and covering the blocking liquid outlet portion 206.

Further, referring to fig. 6 in combination with other figures, the storage box 200 further has a second liquid passage 207 located in the storage cavity 201 and isolated from the storage cavity 201, the second liquid passage 207 having a liquid inlet 2071 and a liquid outlet 2072; the liquid inlet 2071 is disposed on the box 210 and is used for communicating with the liquid supply mechanism, and the liquid outlet 2072 is communicated with the first liquid channel 205. Then, the cleaning liquid delivered from the liquid outlet end of the liquid supply mechanism will flow to the cleaning roller 300 through the second liquid channel 207, the first liquid channel 205 and the liquid outlet portion 206 in sequence. Preferably, the second fluid passage 207 is gradually far from the top wall of the tank 210 from the fluid inlet 2071 to the fluid outlet 2072. Thus, a height difference is formed between the liquid inlet 2071 and the first liquid channel 205, which can increase the flow rate of the cleaning liquid entering the first liquid channel 205, and further increase the traveling distance of the cleaning liquid along the first liquid channel 205, so that the cleaning roller 300 is more uniformly wetted; this arrangement also avoids water accumulation inside the second fluid passage 207.

Further, in some embodiments, in order to facilitate the floor washing robot 1 to timely acquire the liquid level in the storage box 200 and further guide a user to timely clean up dirt when the liquid level is high, the storage box 200 further includes a float and a first magnet mounted on the float; correspondingly, the housing 110 is provided with a hall element module and a controller, the hall element module includes a first hall element used with the first magnet, and the controller is electrically connected to the first hall element.

Specifically, referring to fig. 9 and fig. 6, in combination with other figures, the box 210 further has a guide groove 208, the guide groove 208 extends from the bottom of the receiving cavity 201 to the top of the receiving cavity 201, and the guide groove 208 is communicated with the receiving cavity 201, so that the liquid level in the guide groove 208 can rise and fall along with the liquid level in the receiving cavity 201. In this embodiment, the box body 210 is formed with a surrounding wall 2116 in the receiving cavity 201, the surrounding wall 2116 extends from the bottom wall 211 of the box body toward the top wall, and the surrounding wall 2116 and the bottom wall 2111 and the side wall 2112 of the box body together form the guide groove 208; and the surrounding wall 2116 is opened with a notch extending from the bottom to the top of the receiving chamber 201, and the notch communicates the guide groove 208 and the receiving chamber 201, so that the guide groove 208 communicates with the receiving chamber 201. The float 280 is accommodated in the guide groove 208, and can be lifted and lowered along with the liquid level in the guide groove 208 and the liquid level in the accommodating chamber 201, so as to drive the first magnet 281 mounted thereon to lift and lower together. Optionally, the float 280 is foam; it is understood that in other embodiments of the present invention, the float 280 may be a plastic other than foam, or other material that is less dense than and chemically inert to the wastewater. Further optionally, the box 210 further has a limiting structure (not shown in the drawings), which is accommodated in the accommodating cavity 201 and located at the top end of the guide groove 208, and is used for preventing the float 280 from leaving the guide groove 208 from the top of the guide groove 208; in this embodiment, the stop structure extends at least partially into the channel 208. A first hall element (not shown) is installed at the housing 110 and disposed near the top of the guide groove 208, and is used to cooperate with the first magnet 281 to detect whether the float 280 floats to a predetermined position; the preset position is a position close to the top of the storage cavity 201, when the float 280 floats to the preset position, the first hall element detects that the float is in place, and then a signal is transmitted to the controller, and the controller performs related operations according to the signal so as to guide a user to clean dirt in time.

Further, referring back to fig. 3 in combination with other figures, the robot main body 100 further includes an output module 140, and the floor washing robot 1 realizes human-computer interaction with a user through the output module 140, so as to guide the user to clean dirt in time when the liquid level in the storage cavity 201 is higher than a preset value. Specifically, the output module 140 is installed on the top of the housing 110, electrically connected to the controller, and configured to output a warning signal; when the float 280 floats to the preset position, the first hall element detects that the float 280 is in place and sends a signal to the controller, and the controller controls the output module 140 to output a warning signal according to the signal. Optionally, the output module 140 includes a display panel for displaying visual warning signals such as images and texts to prompt the user to clean the dirt in the storage box 200; in addition, in some of other embodiments, the output module 140 may further include an audio output device, where the audio output device is a device capable of outputting sound, such as a speaker, a buzzer, etc., and the audio output device is used for outputting an audible warning signal of a set audio frequency, so as to prompt a user to clean the accommodating box 200; of course, in other embodiments, the output module 140 may also include both a display panel and an audio output device.

Further, in some embodiments, in order to enable the controller to know in time whether the storage box 200 is accommodated in the first groove 101 and is installed in place, so as to facilitate the subsequent cleaning operation, the storage box 200 further includes a second magnet (not shown in the drawings); correspondingly, the hall element module further includes a second hall element (not shown) used in cooperation with the second magnet, and the second hall element is electrically connected to the controller. Specifically, the second magnet is mounted on the box 210, and in this embodiment, the second magnet is disposed in the wall of the box 210 and near the bottom of the box 210 by insert molding; it is understood that in other embodiments of the present invention, the second magnet may be fixed to the box 210 by other means, such as adhesion, screwing, clipping, etc., which are not described in detail herein. A second hall element (not shown) is installed at the housing 110, and is disposed near the bottom of the case 210, and is used for cooperating with a second magnet to detect whether the storage box 200 is installed in place; when the storage box 200 is installed in place, the second hall element detects that the storage box is in place, and then a signal is transmitted to the controller, and the controller controls the floor cleaning robot to be switched to a mode state capable of performing cleaning operation according to the signal, and otherwise, the floor cleaning robot is switched to a mode state incapable of performing cleaning operation.

Further, in some embodiments, to facilitate user access to the receptacle 200, the receptacle 200 further includes a handle. Specifically, referring to fig. 3 and fig. 6 in combination with other figures, the handle 290 is generally arcuate, and both ends of the handle 290 are rotatably mounted on the top or top wall of the side wall 2112 of the box 210, respectively, and can be rotated to be perpendicular or parallel to the top wall of the box 210, so that a user can take the storage box 200 by picking up the middle area of the handle 290. Preferably, the outer surface of the top wall of the box 210 is provided with a handle receiving groove (not shown in the figure) adapted to the handle 290, so that when the storage box 200 is received in the first groove 101, the handle 290 can rotate into the handle receiving groove, so as to avoid the effect of the first flip-open cover 120 covering the opening of the first groove 101 due to the protrusion of the handle 290 on the surface of the box 210.

Furthermore, the present invention further improves the structure of the handle 290 to enhance the fixing effect of the storage box 200 relative to the robot body 100 in the height direction when the storage box is accommodated in the first groove 101. Specifically, referring to fig. 14, which shows a partially enlarged schematic view at B in fig. 6, in combination with other figures, an end of the handle 290 is provided with a limiting groove 291 at an end surface away from the center thereof, the limiting groove 291 extends along a predetermined direction, a first end 2911 of the limiting groove 291 is closed, and a second end 2912 of the limiting groove 291 penetrates through the end of the handle 290 from the first end 2911 along the predetermined direction. Accordingly, the robot body 100 is provided with a limit post (not shown) at a position facing the limit groove 291, and the limit post is used to cooperate with the limit groove 291 to restrict the freedom of movement of the storage box 200 in the height direction of the cleaning robot 1. Specifically, when the storage box 200 is received in the first groove 101 and the handle 290 rotates from the first preset position to the second preset position, the limiting column slides from the second end 2912 of the limiting groove 291 to the first end 2911 relative to the handle 290, and restricts the freedom of movement of the storage box 200 along the height direction of the cleaning robot 1; in the process that the handle 290 rotates from the second predetermined position to the first predetermined position, the position-limiting post is separated from the position-limiting groove 271 from the second end 2912, and the user can freely take out the storage box 200. The first preset position is a position where the handle 290 is vertical to the top wall of the box 210, the second preset position is a position where the handle 290 is parallel to the top wall of the box 210, and at this time, the handle 290 is accommodated in the handle accommodating groove. In this embodiment, the first end 2911 has an axis collinear with the axis of rotation of the handle 290, and the second end 2912 extends in a predetermined direction through the end of the handle. In other embodiments of the present invention, the axis of the first end 2911 may be offset from the rotation axis of the handle 290, and accordingly, the second end 2912 extends along the predetermined direction and penetrates through the end portion, in which the predetermined direction is the rotation direction of the handle 290 from the first predetermined position to the second predetermined position. It is worth mentioning that the arrangement of the limiting groove 291 and the limiting column can remind the user that the containing box 200 can be put forward only by rotating the handle to the vertical position, so as to ensure that the containing box 200 is separated from the overall balance of the first groove 101.

Further, considering that the cleaning roller 300 contacts the ground and the robot main body 100 is higher than the ground when the cleaning robot 1 lands on the ground, during the traveling of the cleaning robot 1, there is no obstruction behind the cleaning roller 300, and the air behind the cleaning roller 300 enters the air suction channel 202 through the gap between the cleaning roller 300 and the robot main body 100, which will reduce the suction effect of the fan assembly 700 on the dirt on the ground, and to overcome this deficiency, the cleaning robot 1 further includes a scraper bar 800. Specifically, referring to fig. 15, which shows a partially enlarged schematic view at C in fig. 4, in combination with other figures, the wiper strip 800 extends in a direction parallel to the axial direction of the cleaning roller 300, is mounted at the bottom of the robot main body 100 and is disposed close to the cleaning roller 300, when the cleaning robot 1 lands, the wiper strip 800 is in interference contact with the ground, and the wiper strip 800 is located behind the cleaning roller 300 in the advancing direction of the cleaning robot 1. The scraper bar 800 is used to form a shelter behind the cleaning roller 300, so as to form a nearly closed negative pressure space together with the cleaning roller 300 and the robot main body 100, and further prevent the outside air from entering the space, thereby improving the negative pressure adsorption effect of the cleaning robot on the floor dirt and the dirt on the cleaning roller 300. The scraper bar 800 is also used for recycling the dirt which is not timely cleaned in the first turnover of the cleaning roller 300 and the dirt which is not timely absorbed to the accommodating cavity 201 by the fan assembly 700, so that the cleaning roller 300 can continuously turnover and the dirt which is recycled by the scraper bar 800 can be continuously absorbed by the fan assembly 700 to be accommodated in the accommodating cavity 201. Optionally, the wiper strip 800 includes a fixing portion 810 and a connecting portion 820; the fixing portion 810 is installed at the bottom of the robot main body 100, one end of the connecting portion 820 is fixed to the fixing portion 810, and the other end extends in a direction away from the robot main body 100. Preferably, the connection part 820 is in interference contact with the floor surface when the cleaning robot 1 is landed. Preferably, the fixing part 820 is at least partially attached to the outer end of the lint 320 of the cleaning roller 300, that is: at least a portion of the wiper strip 800 conforms to the circumferential surface of the scrub roller 300; so, reduced the clearance between scrubbing strip 800 and the cleaning roller 300 on the one hand, reduced the volume in above-mentioned negative pressure space promptly, and then helped promoting fan assembly 700's negative pressure adsorption effect, on the other hand still helps making the great rubbish of volume suitably increase at the frictional force between cleaning roller 300 and scrubbing strip 800, and then the climbing of the great rubbish of volume of being convenient for.

The cleaning robot 1 provided by the embodiment of the invention comprises a robot main body 100, a containing box 200, a cleaning roller 300, a roller power assembly 400, a fan assembly 700, a liquid storage box 500, a liquid supply mechanism and a driving wheel assembly 600. The storage box 200 includes a box 210, a cover assembly 220, a cover driving assembly 230, and a locking assembly 240.

The case 210 includes a case 211, a case cover 212, and a case packing 213. The case cover 212 covers the case 211 and encloses a receiving chamber 201 with the case 211, and the case packing 213 is disposed at a joint between the case cover 212 and the case 211 to seal the joint. Even if the cleaning robot 1 is tilted or turned upside down, the liquid in the storage chamber 201 is prevented from leaking out by the housing packing 213. Therefore, the containing box 200 can effectively avoid the defect that the liquid in the containing cavity 201 seeps outwards; similarly, the cleaning robot 1 including the storage box 200 can also effectively avoid the disadvantage that the liquid in the storage cavity 201 seeps outwards.

The box 210 is provided with a suction channel 202 communicating with the external environments of the storage cavity 201 and the box 210, respectively, and an outlet channel 203 communicating with the external environments of the storage cavity 201 and the box 210, respectively. The cover plate assembly 220 comprises a cover plate 221, wherein the cover plate 221 is accommodated in the accommodating cavity 201 and can move between a sealing position and an unsealing position; in sealed position, the apron seals induced draft passageway and air-out passageway, and in the deblocking position, the apron deblocking induced draft passageway and air-out passageway. Therefore, after the cleaning robot 1 provided by the invention stops working, the storage box 200 can cover the air suction channel 202 and the air outlet channel 203 by enabling the cover plate 221 to be in the sealing position, so as to prevent sewage from overflowing from the air suction channel and the air outlet channel, thereby avoiding the defect that the sewage overflows from the air suction channel 202 and/or the air outlet channel 203 because the cleaning robot 1 is slightly inclined when a user takes the cleaning robot 1.

The cleaning robot 1 utilizes the feature that the wheel arm 610 rotates relative to the robot main body 100 when the cleaning robot is lifted off or landed, and the protrusion 613 disposed on the wheel arm 610 drives the push rod 231 in the cover driving assembly 230 to move between the first position and the second position, and further drives the cover 221 to move between the sealing position and the unsealing position, so as to open and close the first inner port 2021 and the second inner port 2031. When the cleaning robot falls to the ground, the convex part moves to the matching position along with the wheel arm, the cover plate 221 is located at the unsealing position, and the cleaning robot can carry out normal ground washing operation; when the cleaning robot lifts off the ground, the protrusion 613 moves to the separated position along with the wheel arm 610, and the cover 221 is in the sealing position, thereby preventing the sewage from overflowing from the suction channel 202 and the air outlet channel 203. Therefore, the cleaning robot 1 provided by the present invention is very convenient to switch the cover plate 221 between the sealing position and the unsealing position.

At least a portion of the bottom wall of the box 210 is recessed to form a receiving slot 204. The first outer port 2022 of the air suction channel 202 is disposed on the wall of the receiving slot 204 and the receiving slot 204 is connected, and the first inner port 2021 of the air suction channel 202 is connected to the receiving cavity 201. The second inner port 2031 of the air outlet channel 203 is communicated with the accommodating chamber 201, and the second outer port 2032 of the air outlet channel 203 is communicated with the external environment. A sealing ring 250 is disposed around the periphery of the receiving groove 204 and has a closed shape. When the storage box 200 is mounted in the first groove 101, the sealing ring 250 abuts against the mounting surface of the first groove 101 to seal the gap between the storage box 200 and the mounting surface of the first groove 101, so as to reduce the amount of air in the external environment entering the housing groove 204, thereby improving the effect of the fan assembly on sucking dirt; that is, the effect of sucking the contaminants by the cleaning robot 1 can be improved.

The storage box 200 further has a first liquid channel 205 and a liquid outlet portion 206 respectively communicating the first liquid channel 205 with the external environment, the first liquid channel 205 is isolated from the storage cavity 201, and the first liquid channel 205 is used for communicating with the liquid supply mechanism. The containing box 200 is integrated with a first liquid channel 205 which can be communicated with the liquid supply mechanism and can output liquid to the outside through a liquid outlet 206; that is, the storage box 200 is integrated with a function of receiving and spraying the cleaning liquid, so that the cleaning robot 1 provided by the present invention does not need to be additionally provided with a spray pipe, which is advantageous for miniaturization of the cleaning robot.

In addition, the cleaning robot 1 provided by the embodiment of the present invention further includes a wiper strip 800. The wiper strip 800 is installed at the bottom of the robot main body 100 and disposed near the cleaning roller 300, and the wiper strip 800 is in interference contact with the floor surface when the cleaning robot 1 falls to the floor. Then, an almost airtight negative pressure space is enclosed among the wiper strip 800, the cleaning roller 300 and the robot main body 100, and in the process that the cleaning robot 1 advances towards the side of the cleaning roller 300 departing from the wiper strip 800, the wiper strip 800 forms a shelter behind the cleaning roller 300, which can prevent the outside air from entering the space, thereby improving the negative pressure adsorption effect of the cleaning robot 1 on the ground dirt.

Based on the same inventive concept, the invention also provides a containing box, which has the same structure as the containing box 200 in the above embodiment. The specific structure and beneficial effects of the storage box are the same as those of the storage box 200 in the above embodiments, and are not described herein again.

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 it; within the idea of the invention, also technical features in the above embodiments or in different embodiments can be combined, steps can be implemented in any order, and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims

1. The utility model provides a containing box, is applied to cleaning machines people for accomodate the filth, a serial communication port, comprises a box body, the box includes case box, case lid and box sealing washer, the case lid is located the case box and with the case box encloses into one and accomodates the chamber, the box sealing washer is located the case lid with the junction of case box is sealed the junction.

2. The storage case of claim 1, wherein the cover is provided with a first connecting portion and a second connecting portion, the first connecting portion is rotatably connected with the case, and the second connecting portion is snap-fitted with the case so that the cover is tightly covered on the case.

3. The storage box of claim 1, wherein a mounting groove is formed on a surface of the box cover facing the box, the mounting groove being adapted to a top of the box, the top of the box being inserted into the mounting groove, and the box gasket being inserted between the top and a wall of the mounting groove.

4. The container of claim 3, wherein the box gasket is fixed to the top surface of the box and extends in a closed loop along the contour of the top surface of the box; alternatively, the first and second electrodes may be,

5. The containing box according to claim 1, wherein the box body is provided with an air suction channel having a first outer port and a first inner port, the first outer port penetrates through the bottom wall of the box and communicates with the external environment, and the first inner port communicates with the containing cavity;

6. The storage box of claim 5, wherein the first and second internal ports are each proud of the bottom wall and are flush with the second internal port.

7. The storage box according to claim 5 or 6, further comprising:

8. The storage box of claim 7, wherein the cover driving assembly comprises a push rod, one end of the push rod is disposed below the cover, the other end of the push rod penetrates through the bottom wall of the box body to extend out of the box body, and the push rod is movable relative to the box body to move between a first position and a second position;

in the first position, the cover plate is in the sealing position;

9. The storage box of claim 5, wherein at least a portion of the bottom wall of the box body is recessed to form a receiving slot, and the receiving slot is communicated with the air suction channel;

10. The storage box according to claim 1, wherein the storage box is further provided with a first liquid channel and a liquid outlet part respectively communicating the external environment of the box body with the first liquid channel, the first liquid channel is isolated from the storage cavity, and the first liquid channel is used for communicating with an external liquid supply mechanism.

11. The storage box of claim 1, further comprising a handle rotatably mounted to the box.

12. The storage box of claim 11, wherein the end of the handle is provided with a limiting groove on the end surface facing away from the center of the handle;

13. The storage box according to claim 1, wherein the box body is further provided with a guide groove communicated with the storage cavity, and the guide groove extends from the bottom of the storage cavity to the top of the storage cavity;

14. The container of claim 1, further comprising a second magnet mounted to the case for cooperating with a second hall element on an external robot body to detect whether the container is mounted to the robot body.

15. A cleaning robot, characterized by comprising a robot main body provided with a first groove and a containing box according to any one of claims 1 to 14, wherein the containing box is contained in the first groove;