阅读说明：本技术 工作站及清洁装置 (Workstation and cleaning device ) 是由 许仕哲 唐卫东 于 2020-04-17 设计创作，主要内容包括：本发明公开了一种工作站及清洁装置,工作站包括工作站本体和充电机构；工作站本体设置有拖地机器人停靠的停靠台；充电机构设于停靠台；停靠台包括停靠区域；充电机构包括传动件,传动件包括联动的触点凸起和下压凸起,触点凸起用于与拖地机器人的充电接口抵接实现充电,触点凸起的上端在初始时位于缩回停靠台的背离拖地机器人停靠的一侧；当下压凸起下压时,触点凸起自停靠台的上表面露出,以使触点凸起与拖地机器人的充电接口抵接,在使下压凸起下压的压力撤去后,触点凸起缩回。本申请的一种工作站及清洁装置,放开下压,下压凸起恢复到初始位置,触点凸起在充电孔缩回,可以避免拖布接触触点凸起,充电更安全,触点凸起的使用寿命更长。(The invention discloses a workstation and a cleaning device, wherein the workstation comprises a workstation body and a charging mechanism; the workstation body is provided with a parking platform for parking the mopping robot; the charging mechanism is arranged on the parking platform; the docking station comprises a docking area; the charging mechanism comprises a transmission part, the transmission part comprises a contact bulge and a pressing bulge which are linked, the contact bulge is used for being abutted against a charging interface of the mopping robot to realize charging, and the upper end of the contact bulge is initially positioned on one side, away from the mopping robot, of the retraction parking platform; when the bulge pushes down, the contact bulge is exposed from the upper surface of the docking station so that the contact bulge is abutted to a charging interface of the mopping robot, and the contact bulge retracts after the pressure for pushing down the bulge is removed. The utility model provides a workstation and cleaning device, the release pushes down, pushes down the arch and resumes initial position, and the contact arch is at the hole withdrawal that charges, can avoid the mop contact arch, and it is safer to charge, and the bellied life of contact is longer.)

1. A workstation, comprising:

the workstation body is provided with a parking platform for parking the mopping robot;

the charging mechanism is arranged on the parking platform and used for charging the mopping robot;

the docking station comprises a docking area;

the charging mechanism comprises a transmission part, the transmission part comprises a contact protrusion and a pressing protrusion which are linked, the contact protrusion is used for being abutted against a charging interface of the mopping robot to realize charging, and the contact protrusion is initially positioned on one side, back to the mopping robot, of the stopping table; when the downward pressing bulge is pressed down under the action of external pressure, the contact bulge is exposed from the upper surface of the parking platform, so that the contact bulge can be abutted to a charging interface of the floor mopping robot, and after the external pressure for pressing down the downward pressing bulge is removed, the contact bulge retracts to the side, away from the parking side of the floor mopping robot, of the parking platform.

2. The workstation according to claim 1, wherein the charging mechanism further comprises a restoring member, the docking area is provided with a pressing hole corresponding to the pressing protrusion, the docking area is provided with a charging hole corresponding to the contact protrusion, and the pressing protrusion and the contact protrusion are respectively aligned with the pressing hole and the charging hole from a side away from the docking of the mopping robot; under the action of the restoring piece, the pressing protrusion protrudes out of the pressing hole initially, the contact protrusion retracts in the charging hole, when the pressing protrusion is pressed down under the action of external pressure, the contact protrusion protrudes out of the charging hole, so that the contact protrusion is abutted against a charging interface of the mopping robot, and after the external pressure for pressing down the pressing protrusion is removed, the restoring piece drives the pressing protrusion to restore to an initial position, so that the contact protrusion retracts in the charging hole.

3. The workstation of claim 2 wherein said transmission further comprises a resilient member and a hold down member;

one end of the elastic piece is fixedly connected with the lower pressing piece, and the other end of the elastic piece is provided with the contact bulge;

one end of the pressing piece, which is far away from the contact protrusion, is provided with the pressing protrusion; the lower pressing protrusion and the contact protrusion are connected in a rotating mode, the lower pressing part is connected with a rotating shaft in a rotating mode, and the rotating shaft is arranged below the parking platform.

4. The workstation according to claim 3 wherein said hold down further comprises a hold down body, a pivot arm, and a sleeve;

two rotating arms are arranged, one ends of the two rotating arms are respectively and fixedly connected with two ends of the pressing piece body, and the other ends of the two rotating arms are used for being rotatably connected with the rotating shaft;

the sleeve and the downward pressing bulge are respectively arranged on two opposite sides of the pressing piece body;

one end of the sleeve is fixedly connected with the pressing piece body and forms a blind hole with the pressing piece body in a surrounding mode;

a fixing column is arranged below the docking area and inserted into the blind hole.

5. The workstation according to claim 4, wherein the restoring member is a spring, the fixed column is a hollow column with an open upper end, the sleeve is sleeved outside the fixed column, the restoring member is arranged in the fixed column, and the restoring member is used for abutting against the sleeve so as to keep/restore the pressing protrusion to an initial position.

6. The workstation according to claim 3, wherein the elastic member comprises a first connecting section, a bending section, a V-shaped section and a free section which are connected in sequence;

the contact bulge is arranged on the free section;

the first connecting section is fixedly connected with the lower pressing piece;

the bending section comprises a lower opening bending part with an opening deviating from the side where the contact protrusion is located and an upper opening bending part with an opening located on the side where the contact protrusion is located, the lower opening bending part is connected with one end of the upper opening bending part in an interconnecting mode, the other end of the lower opening bending part is connected with the first connecting section, and the other end of the upper opening bending part is connected with the V-shaped section;

the opening of the V-shaped section is positioned at the side of the contact protrusion.

7. The workstation of claim 1 further comprising a flame guard, said contact projection passing through said flame guard.

8. The workstation of claim 2, further comprising a cleaning mechanism disposed within the workstation body, the cleaning mechanism for cleaning mops on the mopping robot;

the docking station further comprises a cleaning area; the cleaning area is provided with a cleaning opening;

the cleaning mechanism comprises a hairbrush, and the hairbrush is positioned at the cleaning opening so as to enable the hairbrush to be in contact with the mop positioned at the cleaning opening;

the cleaning mechanism also comprises a sewage box and a brush driving mechanism;

the sewage box is positioned below the cleaning opening, and the hairbrush is arranged in the sewage box;

the brush driving mechanism is arranged in the workstation body and used for driving the brush.

9. The workstation of claim 2, wherein the parking area is provided with a central roller parking slot and a universal wheel parking slot;

the pressing hole is positioned between the middle roller wheel parking groove and the universal wheel parking groove;

when the middle roller and the universal wheel of the mopping robot are respectively stopped in the middle roller parking groove and the universal wheel parking groove, the bottom of the mopping robot presses the pressing protrusion downwards, so that the contact protrusion protrudes from the charging hole and abuts against a charging interface of the mopping robot.

10. A cleaning apparatus comprising a floor-mopping robot and a workstation as claimed in any one of claims 1 to 9.

Technical Field

The invention relates to the field of cleaning devices, in particular to a workstation and a cleaning device.

Background

The existing work station comprises a cleaning area and a parking area for parking the floor mopping robot, and when the floor mopping robot is parked, the cleaning mop and the charging of the floor mopping robot are performed. The protruding exposure of contact of the shell fragment that charges that is used for charging in the parking district to can be pushed down by mopping the ground robot when charging, mopping the ground robot and returning to the workstation and rinse and when charging, the mop of mopping the ground robot rear side is drenched the contact arch on the workstation easily, is unfavorable for charging safety, leads to charging the shell fragment moreover easily and rusts, shortens the life of the shell fragment that charges.

Disclosure of Invention

The invention mainly aims to provide a workstation and a cleaning device, which solve the problem that a contact bump on the workstation is easily wetted by a mop on the rear side of the existing mopping robot.

In order to achieve the purpose, the invention provides a workstation, which comprises a workstation body and a charging mechanism; the workstation body is provided with a parking platform for parking the mopping robot; the charging mechanism is arranged on the parking platform and used for charging the mopping robot; the docking station comprises a docking area; the charging mechanism comprises a transmission part, the transmission part comprises a contact bulge and a pressing bulge which are linked, the contact bulge is used for being abutted against a charging interface of the mopping robot to realize charging, and the contact bulge is initially positioned on one side, away from the mopping robot, of the stopping table; when the arch of pushing down when external pressure effect pushes down, the contact is protruding to expose from the upper surface of berthhing the platform to make the contact protruding can with drag ground robot's the interface butt that charges, after making the protruding external pressure who pushes down remove, the contact is protruding to retract to the one side of berthhing of deviating from of berthing the platform and dragging ground robot and berthhing.

Furthermore, the charging mechanism also comprises a restoring piece, a stopping area is provided with a pressing hole corresponding to the pressing bulge, a stopping area is provided with a charging hole corresponding to the contact bulge, and the pressing bulge and the contact bulge are respectively aligned to the pressing hole and the charging hole from one side of the stopping area, which is far away from the mopping robot; under the effect of recovery piece, protruding in the hole of pressing down of protruding when original, the contact arch is charging the hole withdrawal, when the protruding play of pushing down under the external pressure effect of pushing down, the contact arch is by the hole protrusion that charges to make the contact protruding with drag ground robot's the interface butt that charges, after the external pressure that makes the protruding push down of pushing down removes, recovery piece drives and pushes down the arch and resume initial position, so that the contact arch is charging the hole withdrawal.

Further, the transmission part also comprises an elastic part and a pressing part; one end of the elastic piece is fixedly connected with the lower pressing piece, and the other end of the elastic piece is provided with a contact bulge; one end of the lower pressing piece, which is far away from the contact bulge, is provided with a lower pressing bulge; the pressing part of the pressing piece between the pressing protrusion and the contact protrusion is rotatably connected with the rotating shaft, and the rotating shaft is arranged below the parking platform.

Furthermore, the pressing piece also comprises a pressing piece body, a rotating arm and a sleeve; two rotating arms are arranged, one ends of the two rotating arms are respectively and fixedly connected with two ends of the pressing piece body, and the other ends of the two rotating arms are used for being rotatably connected with the rotating shaft; the sleeve and the downward pressing bulge are respectively arranged on two opposite sides of the pressing piece body; one end of the sleeve is fixedly connected with the pressing piece body and forms a blind hole with the pressing piece body in a surrounding manner; a fixing column is arranged below the docking area and inserted into the blind hole.

Further, resume the piece and be the spring, the fixed column is upper end open-ended cavity cylinder, and the cover barrel casing is established in the fixed column outside, resumes the piece and establishes in the fixed column, resumes the piece and is used for supporting the sleeve to make and push down protruding holding/resume initial position.

Furthermore, the elastic part comprises a first connecting section, a bending section, a V-shaped section and a free section which are connected in sequence; the contact bulge is arranged on the free section; the first connecting section is fixedly connected with the lower pressing piece; the bending section comprises a lower opening bending part with an opening deviating from the side of the contact protrusion and an upper opening bending part with an opening positioned on the side of the contact protrusion, the lower opening bending part is connected with one end of the upper opening bending part, the other end of the lower opening bending part is connected with the first connecting section, and the other end of the upper opening bending part is connected with the V-shaped section; the opening of the V-shaped section is located on the side of the contact bump.

Further, the contact structure also comprises a fireproof piece, and the contact protrusion penetrates through the fireproof piece.

Furthermore, the cleaning device also comprises a cleaning mechanism, the cleaning mechanism is arranged in the workstation body and is used for cleaning the mop cloth on the mopping robot; the docking station further comprises a cleaning area; the cleaning area is provided with a cleaning opening; the cleaning mechanism comprises a hairbrush which is positioned at the cleaning opening so as to enable the hairbrush to be contacted with the mop positioned at the cleaning opening; the cleaning mechanism also comprises a sewage box and a brush driving mechanism; the sewage box is positioned below the cleaning opening, and the brush is arranged in the sewage box; the brush driving mechanism is arranged in the workstation body and used for driving the brush.

Furthermore, a middle roller parking groove and a universal wheel parking groove are formed in the parking area; the pressing hole is positioned between the middle roller wheel parking groove and the universal wheel parking groove; when the middle roller and the universal wheel of the mopping robot stop in the middle roller parking groove and the universal wheel parking groove respectively, the bottom of the mopping robot is pressed downwards to press the protrusions, so that the contact protrusions are protruded from the charging holes and abutted to the charging interface of the mopping robot.

The application also provides a cleaning device, which comprises the floor mopping robot and the workstation.

The application discloses a workstation and a cleaning device.A contact bulge is arranged at the upper end of the contact bulge and is initially positioned at one side of a parking platform, which is away from the parking side of a floor mopping robot; when the pressing bulge is pressed back under the action of external pressure, the contact bulge is exposed out of the upper surface of the parking platform due to linkage relation, so that the contact bulge can be abutted to a charging interface of the floor mopping robot, after the external pressure acting on the pressing bulge is removed, the contact bulge retracts to the side, deviating from the parking side of the floor mopping robot, of the parking platform, when the floor mopping robot moves to a work station, the mop cloth can be prevented from contacting the contact bulge, the contact bulge is not wetted, charging is safer, and the service life of the contact bulge is longer.

Drawings

FIG. 1 is a schematic cross-sectional view of a cleaning device according to an embodiment of the present invention;

FIG. 2 is an enlarged view of part A of FIG. 1;

FIG. 3 is a schematic block diagram of an embodiment of a workstation of the present invention;

FIG. 4 is a schematic view of an embodiment of a transmission member in the workstation of the present invention;

FIG. 5 is a schematic structural diagram of an embodiment of the elastic member in the workstation according to the present invention;

FIG. 6 is a schematic structural diagram of an embodiment of a lower press member in the workstation according to the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the present invention and are not intended to limit the present invention.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly, and the connection may be a direct connection or an indirect connection.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least two of that feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present application.

Referring to fig. 1 to 6, an embodiment of the present invention provides a workstation, including a workstation body 1 and a charging mechanism; the workstation body 1 is provided with a parking platform 11 for parking the mopping robot 2; the charging mechanism is arranged on the parking platform 11 and is used for charging the mopping robot 2; the docking station 11 comprises a docking area 12; the charging mechanism comprises a transmission part, the transmission part comprises a contact protrusion 1411 and a pressing protrusion 1421 which are linked, the contact protrusion 1411 is used for being abutted against a charging interface of the mopping robot 2 to realize charging, and the contact protrusion 1411 is initially positioned on one side, away from the mopping robot 2, of the parking platform 11; when the pressing protrusion 1421 is pressed down by external pressure, the contact protrusion 1411 is exposed from the upper surface of the docking station 11, so that the contact protrusion 1411 can be abutted to the charging interface of the mopping robot 2, and after the external pressure for pressing the pressing protrusion 1421 is removed, the contact protrusion 1411 is retracted to the side of the docking station 11 away from the side where the mopping robot 2 is docked.

In the present embodiment, the upper end of the contact projection 1411 is initially located on the side of the docking station 11 that is retracted away from the floor-mopping robot 2; when the mopping robot 2 enters the stopping area 12 and is located at a set position of the stopping area 12, the downward pressing protrusion 1421 is pressed downward under the action of external pressure, the contact protrusion 1411 is exposed out of the upper surface of the stopping table 11 due to linkage relation, so that the contact protrusion 1411 is abutted to a charging interface of the mopping robot 2, after the mopping robot 2 leaves the set position of the stopping area 12, the external pressure acting on the downward pressing protrusion 1421 is removed, the contact protrusion 1411 is retracted to one side of the stopping table 11 away from the side, away from the stopping of the mopping robot 2, when the mopping robot 2 moves to a work station, the contact protrusion 1411 can be prevented from being contacted by a mop cloth, the contact protrusion is not wetted, charging is safer, and the service life of the contact protrusion 1411 is longer.

In the present embodiment, the external pressure may be formed by the driving force of the mopping robot or may be formed by the gravity of the mopping robot itself. For example, when the mopping robot is located at the set position of the parking area, the external pressure is formed on the pressing protrusion by the self gravity of the mopping robot, so that the pressing protrusion is pressed, the contact protrusion is exposed, and when the mopping robot leaves the set position of the parking area, the external pressure is removed, and the contact protrusion is retracted.

In the present embodiment, the workstation includes a workstation body 1 and a charging mechanism; the workstation body 1 is provided with a parking platform 11 for parking the mopping robot 2; the charging mechanism is arranged on the parking platform 11 and is used for charging the mopping robot 2; the docking station 11 comprises a docking area 12 and a cleaning area 13; the cleaning zone 13 is provided with a cleaning opening 131; the parking area 12 is provided with a middle roller parking groove 122 and a universal wheel parking groove 121, as shown in fig. 3, the middle roller parking groove 122 is close to the cleaning opening 131, and the universal wheel parking groove 121 is far from the cleaning opening 131; the charging mechanism comprises a transmission part 14 and a restoring part, the transmission part 14 comprises a pressing protrusion 1421 and a contact protrusion 1411, as shown in fig. 3, the contact protrusion 1411 is used for abutting against a charging interface of the mopping robot 2 to realize charging, the parking area 12 is provided with a pressing hole 124 corresponding to the pressing protrusion 1421, the pressing hole 124 is located between the middle roller parking groove 122 and the universal wheel parking groove 121, the parking area 12 is provided with a charging hole 123 corresponding to the contact protrusion 1411, the pressing protrusion 1421 and the contact protrusion 1411 are respectively aligned with the pressing hole 124 and the charging hole 123 from the side away from the mopping robot 2, the pressing hole 124 is arranged between the middle roller parking groove 122 and the universal wheel parking groove 121, the pressing protrusion 1421 initially protrudes out of the pressing hole 124 under the effect of the restoring part, the contact protrusion 1411 retracts in the charging hole 123, when the pressing protrusion 1421 is pressed down under the effect of external pressure, the contact protrusion 1411 protrudes out of the charging hole 123, after the external pressure for pressing down the pressing protrusion 1421 is removed, the restoring member drives the pressing protrusion 1421 to restore to the initial position, so that the contact protrusion 1411 retracts in the charging hole 123, and when the middle roller and the universal wheel of the mopping robot 2 are both stopped in the middle roller parking groove 122 and the universal wheel parking groove 121, the pressing protrusion 1421 is pressed down at the bottom of the mopping robot 2, so that the contact protrusion 1411 protrudes from the charging hole 123 and abuts against the charging interface of the mopping robot 2.

In an embodiment of the workstation, when the mopping robot 2 enters the docking station 11, under the action of the restoring member, the pressing protrusion 1421 protrudes out of the pressing hole 124 initially, the contact protrusion 1411 retracts in the charging hole 123, when the middle roller and the universal wheel enter the middle roller parking groove 122 and the universal wheel parking groove 121, the chassis of the mopping robot 2 moves down, and further the pressing protrusion 1421 is pressed downward, the contact protrusion 1411 protrudes from the charging hole 123, so that the contact protrusion 1411 abuts against the charging interface of the mopping robot 2, and when the mopping robot 2 leaves the docking station 11, the pressing protrusion 1421 is released, the pressing protrusion 1421 is driven by the restoring member to return to the initial position, so that the contact protrusion 1411 retracts in the charging hole 123, the contact protrusion 1411 can be prevented from being contacted by the mop 21, the charging is safer, and the service life of the contact protrusion is longer.

It should be noted that, in this embodiment, the workstation body 1 is provided with a parking space 17 into which the mopping robot 2 enters, and the parking platform 11 is located at the bottom of the parking space 17; the parking space 17 is formed by the lower part of the workstation body 1 sinking to one side, and the parking space 17 is used for the floor mopping robot 2 to enter.

It should be mentioned that, in this embodiment, the docking station 11 extends from the docking space 17 to the opening outside the workstation in an inclined manner, the inclined direction is inclined from the opening to the inside in a downward and upward trend, the corresponding brush 195 in the cleaning area of the workstation is also inclined corresponding to the mop 21 of the mopping robot 2, as shown in fig. 1 and 2, the inclined arrangement of the docking station 11 can reduce the floor space when the mopping robot 2 is parked, and further reduce the floor space of the workstation, so that the workstation can be more easily set.

It should be noted that, in the present embodiment, the pressing protrusion 1421 is inclined along the inclined direction of the upper surface of the docking station 11, (preferably, the contact protrusion 1411 is inclined in the opposite direction to the inclined direction of the upper surface of the docking station 11), when the pressing protrusion 1421 is at the initial position, the upper surface is parallel to the upper surface of the docking station 11, and the upper surface of the pressing protrusion 1421 is not excessively protruded, so that the mopping robot 2 can enter the pressing protrusion 1421 without touching the pressing protrusion 1421 by mistake; contact arch 1411 is pressed down protruding 1421 and is driven when being convex by hole 123 that charges, and its upper surface is parallel with the lower terminal surface who drags the interface that charges of ground robot 2, can make contact arch 1411 and the interface that charges of dragging ground robot 2 have as much as possible area of contact, guarantees the effect of charging and the stability of charging.

It should be noted that, in some embodiments, the pressing protrusion 1421 is a control switch, which is closed when pressed by pressure, and the pressing protrusion 1421 moves upward after the pressure is removed, and the switch is opened, and the contact protrusion 1411 is connected to a driving mechanism, and the control switch controls the driving mechanism, and when the control switch is closed, the driving mechanism drives the contact protrusion 1411 to move upward, and when the control switch is opened, the driving mechanism drives the contact protrusion 1411 to move downward.

It should be noted that, in the present embodiment, there are two middle roller parking grooves 122, and a rolling brush seating groove 15 for seating a sweeping rolling brush in the floor mopping robot 2 is provided between the two middle roller parking grooves 122.

Further, in some embodiments, the transmission member 14 includes an elastic member 141 and a pressing member 142, as shown in fig. 4; one end of the elastic member 141 is fixedly connected to the pressing member 142, and the other end of the elastic member 141 is provided with a contact protrusion 1411, as shown in fig. 5; the end of the pressing member 142 away from the contact protrusion 1411 is provided with a pressing protrusion 1421, as shown in fig. 6; the portion of the pressing member 142 located between the pressing protrusion 1421 and the contact protrusion 1411 of the pressing member 142 is rotatably connected to the rotating shaft 144, and the rotating shaft 144 is disposed below the docking station 11. One end of the elastic member 141 is fixedly connected with the pressing member 142 to form an integral structure, a lever structure is formed through the rotating shaft 144, when the pressing protrusion 1421 is pressed down, according to the lever principle, the contact protrusion 1411 at the other end of the fulcrum (the rotating shaft 144) tilts, and the effect that the contact protrusion 1411 protrudes when the pressing protrusion 1421 is pressed is further achieved; the elastic deformation of the elastic member 141 can reduce the impact on the pressing member 142 when the pressing protrusion 1421 is pressed down, thereby providing a buffering function. Further, in some embodiments, as shown in fig. 6, the hold-down member 142 further includes a press member body 1422, a rotating arm 1423, and a sleeve 1424; two rotating arms 1423 are provided, one end of each of the two rotating arms 1423 is fixedly connected to two ends of the pressing member body 1422, and the other end is rotatably connected to the rotating shaft 144; the sleeve 1424 and the pressing protrusion 1421 are disposed on two opposite sides of the pressing member body 1422; one end of the sleeve 1424 is fixedly connected to the pressing member body 1422, and forms a blind hole with the pressing member body 1422; a fixing column is arranged below the docking area 12 and inserted into the blind hole. The two rotating arms 1423 correspond to the two elastic members 141, for example, when charging, the two rotating arms 1423 correspond to the positive and negative electrodes respectively, and are symmetrically distributed, so that the two elastic members 141 are stressed identically, and the contact protrusions 1411 are lifted to the same height, so as to ensure that the two contact protrusions 1411 are abutted to the charging interface of the mopping robot 2, and improve the charging stability.

In the present embodiment, the press-down piece 142 is an integral member.

Further, two sleeves 1424 are provided, the two sleeves 1424 are respectively disposed at two ends of one end of the pressing member body 1422, as shown in fig. 6, the pressing protrusion 1421 is disposed in the middle of the other end of the pressing member body 1422. The two sleeves 1424 can stabilize the movement of the pressing member 142, and the pressing protrusion 1421 is disposed in the middle of the pressing member body 1422 and located between the two sleeves 1424, so that the two sleeves 1424 are stressed uniformly, and the pressing member 142 works stably.

Further, the restoring piece is a spring, the fixing column is a hollow cylinder with an opening at the upper end, the sleeve 1424 is sleeved on the outer side of the fixing column, the restoring piece is sleeved in the fixing column, and the restoring piece is used for abutting against the sleeve 1424 so that the pressing protrusion 1421 is restored to the initial position.

In some embodiments, the restoring member is sleeved outside the fixing post, and the restoring member is used to abut against the sleeve 1424, so that the pressing protrusion 1421 is restored to the initial position. It should also be mentioned that in some embodiments the restoring member is inserted into the blind hole against the bottom of the blind hole or the lower end of the sleeve 1424, and in other embodiments the restoring member is directly against the end of the sleeve 1424.

Further, as shown in fig. 4 and 5, in the present embodiment, the elastic member 141 includes a first connection section 1412, a bending section 1413, a V-shaped section 1414 and a free section 1415 which are connected in sequence; the contact protrusion 1411 is provided at the free section 1415; the first connecting section 1412 is fixedly connected with the lower pressing piece 142; the bending section 1413 comprises a lower opening bending part 14131 with an opening facing away from the side of the contact protrusion 1411 and an upper opening bending part 14132 with an opening located on the side of the contact protrusion 1411, the lower opening bending part 14131 is connected with one end of the upper opening bending part 14132, the other end of the lower opening bending part 14131 is connected with the first connecting section 1412, and the other end of the upper opening bending part 14132 is connected with the V-shaped section 1414; the opening of the V-shaped section 1414 is located on the side of the contact protrusion 1411. The elastic piece 141 is an integral component, the first connecting section 1412 is a strip-shaped sheet structure, the bending section 1413 and the V-shaped section 1414 are strip-shaped sheets and are formed after bending, the V-shaped section 1414 is two sections forming a V shape, the strength of the elastic piece 141 can be improved through bending of the bending section 1413 and the V-shaped section 1414, the elastic piece 141 can be easily restored to the original shape after external force is removed after being deformed by stress in the moving process, and the elastic piece 141 can be used for a long time; in some embodiments, the strength of the elastic member 141 may be increased by providing a rib along the longitudinal direction of the elastic member 141.

In some embodiments, the upper opening bending portion 14132 corresponds to the end of the rotating shaft 144, and can provide a yielding function, so that the rotating shaft 144 can be used normally even if it is slightly longer.

Further, a fireproof member 143 is further included, and the contact protrusion 1411 penetrates the fireproof member 143. The fireproof member 143 is made of fireproof material and is used for protecting the fireproof member 143 during charging, in the embodiment, the fireproof member 143 is fixed with the elastic member 141, the fireproof member 143 is arranged on the periphery of the elastic member 141, for example, the fireproof member 143 and the elastic member 141 are integrally formed through injection molding, in other embodiments, the fireproof member 143 can be fixedly arranged on the workstation body 1 and located in the charging hole 123, and the fireproof member 143 is provided with a through hole for the contact protrusion 1411 to pass through, so that the contact protrusion 1411 can be movably inserted into and pass through the fireproof member 143 during upward movement.

In the present embodiment, the charging holes 123 are located at both sides of the universal wheel parking groove 121.

Referring to fig. 2, further, in some embodiments, the workstation further comprises a cleaning mechanism 19, the cleaning mechanism 19 is provided in the workstation body 1, the cleaning mechanism 19 is used for cleaning mops 21 on the mopping robot 2; the docking station 11 also comprises a washing area 13; the cleaning area is provided with a cleaning opening 131; the cleaning mechanism 19 comprises a brush 195, the brush 195 is positioned at the cleaning opening 131, so that the brush 195 is contacted with the mop 21 positioned at the cleaning opening 131, and the mop 21 is cleaned when the brush 195 rotates; the cleaning mechanism 19 also comprises a sewage box and a brush driving mechanism; the sewage box is positioned below the cleaning opening 131, and the brush 195 is arranged in the sewage box; the brush driving mechanism is arranged in the workstation body 1 and is used for driving the brush 195. The brush 195 is crawler-type brush 195, the sewage box is injectd the box 192 including end box 191 and brush, end box 191 is equipped with catch basin 193, be equipped with stand 194 in the catch basin 193, the brush is injectd box 192 and is located catch basin 193 opening part and with stand 194 detachable fixed connection, the brush is injectd the box 192 lower extreme and is equipped with the water hole, the brush 195 is located in the brush is injectd the box 192, the clear water is injected into in the catch basin 193 and is crossed the water hole and get into the brush and inject the box 192 in, along with the brush 195 rotates can rinse the aquatic with the filth on the brush 195, at the rotatory in-process of brush 195, the brush is injectd box 192.

It should be noted that, in the present embodiment, the bristles define a lattice-like distribution of water passing holes in the lower end of the cartridge 192.

It should be noted that, in this embodiment, the bottom case 191 has a water outlet hole at a lower end of a side wall thereof, and the water outlet hole is connected to a sewage collecting device, and the sewage collecting device collects sewage from the cleaning brush 195 through the water outlet hole, so that the sewage can be discharged once after the brush 195 is cleaned for a plurality of times. In this embodiment, a filter screen 196 is disposed at the water outlet, and the filter screen 196 filters impurities in the sewage to prevent the impurities from blocking the sewage collecting device.

Further, a laser emitting mechanism 16 is also included, as shown in fig. 1; the laser emitting mechanism 16 is used to send an optical signal for guidance. Laser emission mechanism 16 locates in workstation body 1, is located the position that the opening of parking space 17 is just right, and the lateral wall between parking space 17 and laser emission mechanism 16 is filter 18, and filter 18 can filter the light of inciding into by the opening of parking space 17, prevents that light from influencing laser emission mechanism 16's receiving arrangement, and receiving arrangement is used for receiving the laser of feedback.

The application also proposes a cleaning device comprising a floor-mopping robot 2 and a workstation as described above.

According to the workstation and the cleaning device, when the mopping robot 2 enters the parking platform 11, the pressing protrusion 1421 protrudes out of the pressing hole 124 initially under the action of the restoring member, and the contact protrusion 1411 retracts in the charging hole 123.

When middle part gyro wheel and universal wheel get into middle part gyro wheel parking groove 122 and universal wheel parking groove 121, make the chassis of mopping robot 2 move down, and then push down and push down arch 1421, contact arch 1411 is by the hole 123 protrusion that charges, so that contact arch 1411 and mopping robot 2's the interface butt that charges, and when mopping robot 2 leaves the berth 11, relieve the push down to pushing down arch 1421, drive push down arch 1421 at the recovery piece and resume initial position, so that contact arch 1411 retracts at the hole 123 that charges, can avoid mop 21 contact arch 1411, it is safer to charge, elastic component 141's life is longer.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.