CN218074834U - Floor sweeping robot base station - Google Patents

Abstract

The utility model discloses a floor sweeping robot base station, which comprises a base station body, wherein the base station body is provided with a first charging structure for charging a floor sweeping robot matched with the base station body; the base station body is provided with an accommodating cavity, and the accommodating cavity is formed on the surface of the base station body to form a throwing opening for throwing garbage. The utility model discloses it is provided with and holds the chamber and throw away the mouth of putting and integrate the garbage bin function promptly, is favorable to improving area's the rate of utilization.

Description

Floor sweeping robot base station

Technical Field

The utility model belongs to the technical field of the robot of sweeping the floor and specifically relates to a robot basic station sweeps the floor.

Background

The floor sweeping robot is also called an automatic cleaner, intelligent dust collection, a robot dust collector and the like, is one of intelligent household appliances, and can automatically complete floor cleaning work in a room by means of certain artificial intelligence. Generally, the floor cleaning machine adopts a brushing and vacuum mode, and firstly absorbs the impurities on the floor into the garbage storage box, so that the function of cleaning the floor is achieved. Generally, a robot that performs cleaning, dust collection and floor wiping is also collectively called a floor sweeping robot.

The sweeping robot base station is matched equipment of the sweeping robot, can charge the sweeping robot, and even integrates a dust collection function to reduce the frequency of dumping garbage for a user; however, the base station of the floor sweeping robot in the market at present does not have the function of integrating the garbage can, and a user still needs to be equipped with a garbage can at home to throw and place garbage actively, so that the utilization rate of the occupied area is not favorable.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough that exists among the prior art, the utility model provides a robot base station of sweeping floor, it is provided with and holds the chamber and throw away and put the mouth and integrate the garbage bin function promptly, is favorable to improving area's the rate of utilization.

In order to achieve the above purpose, the utility model adopts the following technical scheme to realize:

a floor sweeping robot base station comprises a base station body, wherein a first charging structure used for charging a floor sweeping robot matched with the base station body is arranged on the base station body; the base station body is provided with an accommodating cavity, and the accommodating cavity is formed on the surface of the base station body to form a throwing opening for throwing garbage.

By adopting the structure, the base station not only can charge the sweeping robot, but also can provide a place for users to throw garbage, and the functions of the garbage can are integrated on the base station, so that the use efficiency of the occupied area is improved; specifically, the first charging structure may charge the sweeping robot; and the user throws the garbage into the accommodating cavity through the throwing opening.

If the robot of sweeping the floor that matches with this product has the manipulator that can snatch rubbish, the robot of sweeping the floor runs into the rubbish back that is bigger than its rubbish receiver, utilizes its manipulator to snatch this rubbish and throw away and put the intracavity that holds to the basic station.

In the use, the user can be in hold the intracavity and add the disposal bag to the rubbish that holds the intracavity is cleared up to the later stage.

Further, the base station of the sweeping robot comprises a cover matched with the throwing port to cover the throwing port.

By adopting the structure, the arrangement of the cover can prevent the garbage from being exposed, effectively prevent the garbage from attracting flies and generating maggots and prevent peculiar smell from diffusing; when the user needs to throw the garbage, operating the cover to expose the throwing opening so as to let the user throw the garbage; when the user finishes throwing the garbage, the cover is operated to close the throwing opening.

Further, the cover is movably connected to the base station body at the throwing port.

By adopting the structure, the cover is movably arranged to open and close the throwing port; specifically, the cover is rotatably provided on the base station body.

Further, the robot basic station of sweeping the floor is including being used for hiding the driving piece, hide the driving piece with hide and be connected with its motion of drive and open and close the throwing is put mouthful.

Furthermore, the cover is provided with a sealing ring matched with the throwing opening, and the structure can enable the cover to better seal the throwing opening.

Further, robot base station of sweeping the floor includes the response module, the response module is used for responding to the people and/or whether robot of sweeping the floor is close to basic station body and production corresponding inductive signal are in order to control cover the driving piece drive cover open and close throw the mouth.

By adopting the structure, when the sensing module senses that a user or the sweeping robot is close to the base station body, the sensing module sends a corresponding sensing signal to control the covering driving piece to drive the covering to open the throwing port; when the sensing module senses that a user or the sweeping robot is far away from the base station body, the sensing module sends a corresponding sensing signal to control the covering driving piece to drive the covering driving piece to close the throwing opening; the structure greatly increases the use experience of a user, and particularly, the induction module is a microwave module.

Further, the throwing port is formed on a top surface of the base station body.

By adopting the structure, the user or the sweeping robot can throw and place garbage more conveniently.

Furthermore, the base station body is provided with a dust suction port for sucking the garbage in the sweeping robot into the base station body.

By adopting the structure, the dust outlet of the sweeping robot can be aligned to the dust suction port of the base station body when the sweeping robot returns to the station, garbage in the dust box of the sweeping robot is sucked into the dust box or the dust bag of the base station body when the base station body runs, and the frequency of cleaning the garbage by a user is effectively reduced so as to improve the use experience of the user.

Further, the base station body is provided with an opposite detection mechanism, and the opposite detection mechanism is used for detecting whether a dust outlet on the sweeping robot is opposite to a dust suction port on the base station body or not in a state that the sweeping robot returns to the station;

the base station body can be allowed to suck the garbage in the sweeping robot into the base station body under the state that the dust outlet of the sweeping robot is opposite to the dust suction port.

Adopt above-mentioned structure, just to detection mechanism's setting for sweep the floor the robot go out the dirt mouth with base station body's dust absorption mouth is only when just right, base station body just can follow the robot that sweeps the floor and locate the dust absorption, can effectively avoid sweeping the floor the robot and return the back of standing, has the clearance to lead to taking place the hourglass wind and make the rubbish in the robot of sweeping the floor can't be totally by the suction or spill over in the dust absorption in-process rubbish from sweeping the clearance between the dirt mouth of sweeping the floor the robot and the dust absorption mouth of base station body between.

When the sweeping robot returns to the station, if the sweeping robot is detected to be not opposite to the dust outlet of the base station body by the opposite detection mechanism, the sweeping robot can continue to move and search until the opposite detection mechanism detects that the dust outlet of the sweeping robot is opposite to the dust outlet of the base station body.

Further, the right detection mechanism comprises at least two trigger structures arranged on the base station body; and under the state that each triggering structure is triggered by the triggering parts matched with the triggering structures one by one on the sweeping robot, whether the dust outlet on the sweeping robot is opposite to the dust suction port on the base station body or not is judged.

By adopting the structure, the number of the trigger structures is at least two so as to ensure the accuracy of the detection of the dead against detection mechanism; specifically, the trigger structure controls a dust suction fan of the base station to realize whether the base station is allowed to suck garbage from the sweeping robot; when all the trigger structures are triggered by the corresponding trigger parts on the sweeping robot, the dust suction fan of the base station is allowed to work.

Furthermore, the triggering structure comprises a moving part, a travel switch and a resetting part, wherein the moving part is movably arranged on the base station body, and the travel switch is arranged on a moving track of the moving part; the reset piece acts on the movable piece to enable the movable piece to have a tendency of being far away from the travel switch; when the sweeper body returns to the station, the triggering portion on the sweeping robot abuts against the corresponding moving piece and drives the moving piece to move towards the side close to the travel switch.

By adopting the structure, when the sweeping robot returns to the station, the triggering part on the sweeping machine body can act on the corresponding moving part, so that the moving part overcomes the acting force of the resetting part, moves towards the side close to the travel switch and triggers the travel switch; when each travel switch is triggered, the base station can be allowed to start a dust collection function;

when the sweeping robot goes out of the station, the acting force exerted on the movable piece by the trigger part on the sweeping machine body disappears, and the movable piece moves away from the travel switch side under the action of the reset piece to prepare for next station return trigger of the sweeping machine.

Furthermore, the base station body is provided with a movable matching part at the position where the movable part is installed, the movable matching part is provided with a sliding sleeve hole, and the movable part is provided with a sliding matching column matched with the sliding sleeve hole; the reset piece is an elastic piece, is sleeved on the sliding fit column and is respectively abutted against the movable fit part and the movable part at two ends; the base station body is provided with an exposure hole for exposing the movable piece; specifically, the reset piece is a spring.

By adopting the structure, the movable piece is arranged in the sliding sleeve hole in a penetrating way through the sliding matching column so as to realize the sliding arrangement of the movable piece; specifically, the moving part is provided with the action part protruding from the exposure hole, and the trigger part on the action part is convenient for the floor sweeping robot to act on the moving part when the floor sweeping robot returns to the station.

Further, first charging structure sets up trigger structure is last, the trigger part of robot of sweeping the floor trigger structure's state under, first charging structure matches the contact with the second charging structure who sweeps the floor on the robot and charges for the robot of sweeping the floor.

Adopt above-mentioned structure, when the robot of sweeping the floor returns to stand, the portion of triggering butt on the robot of sweeping the floor acts on trigger piece on the basic unit, this moment the second in the portion of triggering dash electric structure with first charging structure on the trigger piece matches the contact, the basic unit body charges for the robot of sweeping the floor in order to guarantee the robot of sweeping the floor electric quantity.

Furthermore, the two triggering parts are arranged on two sides of the dust suction port respectively; correspondingly, trigger parts are arranged on two sides of a dust outlet of the sweeping robot.

By adopting the structure, the accuracy of the detection mechanism is ensured under the condition of controlling the cost.

Furthermore, a sealing sleeve is arranged on the periphery of the dust suction port of the base station body.

Adopt above-mentioned structure, when the robot of sweeping the floor returns to the station, the dust outlet periphery on the robot of sweeping the floor can with the seal cover contact is sealed, prevents to sweep the floor and takes place the side leakage between the dust outlet of robot and the dust absorption mouth of basic station body.

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) The utility model discloses a robot base station of sweeping floor, it is provided with and holds the chamber and throw away and put the mouth promptly integrated garbage bin function, and convenience of customers initiatively puts in rubbish and/or puts in the rubbish that the volume is greater than its rubbish receiver for the robot of sweeping floor of band manipulator, is favorable to improving area's rate of utilization, and the use of reinforcing user is experienced.

(2) The utility model discloses a robot basic station of sweeping floor, its structure sets up rationally.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of a base station of the floor sweeping robot in a state that a cover is not opened;

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

fig. 3 is a schematic view of a three-dimensional structure of the base station of the floor sweeping robot in a covering and opening state;

fig. 4 is a schematic structural view of the floor sweeping robot base station facing the detection mechanism;

FIG. 5 is an enlarged view at B in FIG. 4;

reference numerals: 1, a base station body; 101 an accommodating cavity; 102 throwing and putting the mouth; 103 covering; 1031 sealing ring; 104 dust suction openings; 105 a movable fitting part; 1051 sliding sleeve holes; 106 exposing a hole; 2 a first charging structure; 3, the detection mechanism is just opposite to the detection mechanism; 301 a trigger mechanism; 3011a moving part; 3011a slip fit post; 3012 a travel switch; 3013 a reset piece; 4 sealing sleeve.

Detailed Description

The following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in fig. 1 to 5, a floor sweeping robot base station includes a base station body 1, wherein a first charging structure 2 for charging a floor sweeping robot matched with the base station body 1 is arranged on the base station body 1; the base station body 1 is provided with an accommodating cavity 101, and the accommodating cavity 101 forms a throwing opening 102 for throwing garbage on the surface of the base station body 1.

By adopting the structure, the base station not only can charge the sweeping robot, but also can provide a place for users to throw garbage, and the functions of the garbage can are integrated on the base station, so that the use efficiency of the occupied area is improved; specifically, the first charging structure 2 may charge the sweeping robot; the user throws the garbage into the containing cavity 101 through the throwing port 102.

If the robot of sweeping the floor that matches with this product has the manipulator that can snatch rubbish, the robot of sweeping the floor meets behind the rubbish that is bigger than its rubbish receiver, utilizes its manipulator to snatch this rubbish and throw away and put in the chamber 101 that holds to the basic station.

In the use, the user can be in hold chamber 101 in add the disposal bag to the later stage is cleared up the rubbish that holds in the chamber 101.

Preferably, the base station comprises a cover 103 that fits over the throwing port 102 to cover it.

By adopting the structure, the arrangement of the cover 103 can prevent the garbage from being exposed, effectively prevent the garbage from attracting flies to generate maggots and prevent peculiar smell from diffusing; when the user needs to throw the garbage, operating the cover 103 to expose the throwing port 102 for the user to throw the garbage; when the user has discarded the garbage, the cover 103 is operated to close the discard throwing port 102.

Preferably, the cover 103 is movably connected to the base station body 1 where the throwing port 102 is disposed.

By adopting the structure, the movable arrangement of the cover 103 is used for opening and closing the throwing port 102; specifically, the cover 103 is rotatably provided on the base station body 1.

Preferably, the base station of the sweeping robot comprises a driving member for covering 103, and the driving member for covering 103 is connected with the covering 103 to drive the covering 103 to move so as to open and close the throwing opening 102.

Preferably, the cover 103 is provided with a sealing ring 1031 matched with the throwing port 102, and the above structure enables the cover 103 to better seal the throwing port 102.

Preferably, the base station of the floor sweeping robot comprises an induction module, wherein the induction module is used for inducing whether a person and/or the floor sweeping robot approaches the base station body 1 and generating a corresponding induction signal to control the covering 103 driving piece to drive the covering 103 to open and close the throwing port 102.

By adopting the structure, when the sensing module senses that a user or a sweeping robot approaches the base station body 1, a corresponding sensing signal is sent to control the driving piece of the cover 103 to drive the cover 103 to open the throwing port 102; when the sensing module senses that a user or a sweeping robot is far away from the base station body 1, a corresponding sensing signal is sent to control the cover 103 driving piece to drive the cover 103 to close the throwing port 102; the structure greatly increases the use experience of a user, and particularly, the induction module is a microwave module.

Preferably, the throwing port 102 is formed on the top surface of the base station body 1.

By adopting the structure, the user or the sweeping robot can throw and place garbage more conveniently.

Preferably, the base station body 1 is provided with a dust suction port 104 for sucking the garbage in the cleaning robot into the base station body 1.

By adopting the structure, when the sweeping robot returns to the station, the dust outlet of the sweeping robot can be aligned to the dust suction port 104 of the base station body 1, garbage in the dust box of the sweeping robot is sucked into the dust box or the dust bag of the base station body 1 when the base station body 1 runs, so that the frequency of cleaning the garbage by a user is effectively reduced, and the use experience of the user is improved.

Preferably, the base station body 1 is provided with a facing detection mechanism 3, and the facing detection mechanism 3 is used for detecting whether a dust outlet on the sweeping robot faces a dust suction port 104 on the base station body 1 in a state that the sweeping robot returns to the station;

the base station body 1 can only allow the garbage in the sweeping robot to be sucked into the base station body 1 in a state that the dust outlet of the sweeping robot is opposite to the dust suction port 104.

Adopt above-mentioned structure, just to detection mechanism 3's setting for sweep the floor the robot go out the dirt mouth with base station body 1's dust absorption mouth 104 only when just right, base station body 1 just can follow the robot that sweeps the floor and locate the dust absorption, can effectively avoid sweeping the floor the robot and return the back of standing, there is the clearance between the play dirt mouth of robot and base station body 1 dust absorption mouth 104 and leads to taking place the hourglass wind and make the rubbish in the robot of sweeping the floor can't be totally by the suction or the rubbish spills over from the clearance between the play dirt mouth of robot of sweeping the floor and the dust absorption mouth 104 of base station body 1 in the dust absorption process.

When the sweeping robot returns to the station, if the detection mechanism 3 is just facing to detect that the dust outlet of the sweeping robot is not just facing to the dust suction port 104 of the base station body 1, the sweeping robot can continue to move and search until the detection mechanism 3 detects that the dust outlet of the sweeping robot is just facing to the dust suction port 104 of the base station body 1.

Preferably, the facing detection mechanism 3 includes at least two trigger structures 301 disposed on the base station body 1; when each trigger structure 301 is triggered by the trigger part on the sweeping robot one by one, whether the dust outlet on the sweeping robot is opposite to the dust suction port 104 on the base station body 1 is determined.

By adopting the structure, the number of the triggering structures 301 is at least two to ensure the accuracy of the detection of the dead-against detection mechanism 3; specifically, the trigger structure 301 controls the dust suction fan of the base station to realize whether the base station is allowed to suck garbage from the sweeping robot; when all the trigger structures 301 are triggered by the corresponding trigger parts on the sweeping robot, the dust suction fan of the base station is allowed to work.

Preferably, the triggering structure 301 includes a moving part 3011, a stroke switch 3012, and a resetting part 3013, the moving part 3011 is movably installed on the base station body 1, and the stroke switch 3012 is disposed on a moving track of the moving part 3011; the reset component 3013 acts on the moving component 3011 to make it have a trend of moving away from the travel switch 3012; when the sweeper body is in a state of returning to the station, the trigger part on the sweeping robot abuts against the corresponding moving part 3011 and drives the moving part 3011 to move towards the side close to the travel switch 3012.

By adopting the structure, when the sweeping robot returns to the station, the trigger part on the sweeping machine body acts on the corresponding moving part 3011, so that the moving part 3011 overcomes the acting force of the reset part 3013 and moves towards the side close to the travel switch 3012 to trigger the travel switch 3012; when each travel switch 3012 is triggered, the base station can be allowed to start a dust collection function;

when the sweeping robot goes out of the station, the acting force applied to the movable piece 3011 by the trigger part on the sweeping machine body disappears, and the movable piece 3011 moves away from the travel switch 3012 under the action of the reset piece 3013 to prepare for next time of sweeping machine station returning trigger.

Preferably, the base station body 1 is provided with a movable matching portion 105 at a position where the movable piece 3011 is installed, the movable matching portion 105 is provided with a sliding sleeve hole 1051, and the movable piece 3011 is provided with a sliding matching post 3011a matched with the sliding sleeve hole 1051; the reset piece 3013 is an elastic piece, the reset piece 3013 is sleeved on the sliding fit column 3011a, and two ends of the reset piece 3013 are respectively abutted to the movable fit portion 105 and the movable piece 3011; the base station body 1 is provided with an exposure hole 106 for exposing the movable piece 3011; specifically, the reset component 3013 is a spring.

By adopting the structure, the moving part 3011 is inserted into the sliding sleeve hole 1051 through the sliding fit column 3011a to realize the sliding arrangement; specifically, the moving element 3011 is provided with an acting portion protruding from the exposing hole 106, and the acting portion is provided to facilitate a trigger portion on the sweeping robot to act on the moving element 3011 when the sweeping robot returns to the station.

Preferably, the first charging structure 2 is arranged on the trigger structure 301, the trigger part of the sweeping robot triggers the trigger structure 301, and the first charging structure 2 is in contact with a corresponding second charging structure on the sweeping robot in a matching manner to charge the sweeping robot in the state of the trigger structure 301.

Adopt above-mentioned structure, when the robot of sweeping the floor returns to stand, the portion of triggering butt on the robot of sweeping the floor acts on trigger part on the body of base station 1, this moment the second in the portion of triggering dash electric structure with first charging structure 2 on the trigger part matches the contact, body of base station 1 charges for the robot of sweeping the floor in order to guarantee to sweep the floor the electric quantity in the robot.

Preferably, two triggering pieces are arranged and are respectively arranged at two sides of the dust suction opening 104; correspondingly, two sides of a dust outlet of the sweeping robot are provided with triggering parts.

By adopting the structure, the accuracy of the detection of the opposite detection mechanism 3 is ensured under the condition of controlling the cost.

Preferably, a sealing sleeve 4 is arranged on the periphery of the dust suction opening 104 of the base station body 1.

By adopting the structure, when the sweeping robot returns to the station, the periphery of the dust outlet on the sweeping robot can be in contact sealing with the sealing sleeve 4, so that the side leakage between the dust outlet of the sweeping robot and the dust suction port 104 of the base station body 1 is prevented.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a robot basic station sweeps floor which characterized in that: the base station comprises a base station body (1), wherein a first charging structure (2) used for charging a sweeping robot matched with the base station body (1) is arranged on the base station body (1); the base station body (1) is provided with an accommodating cavity (101), and the accommodating cavity (101) forms a throwing and placing opening (102) for throwing garbage on the surface of the base station body (1).

2. The sweeping robot base station of claim 1, wherein: comprising a cover (103) that mates with the disposal opening (102) to cover it.

3. The sweeping robot base station of claim 2, wherein: the cover (103) is movably connected to the base station body (1) at the position where the throwing port (102) is arranged;

the floor sweeping robot base station comprises a driving part for covering (103), wherein the driving part for covering (103) is connected with the covering (103) to drive the covering (103) to move so as to open and close the throwing port (102);

and a sealing ring (1031) matched with the throwing port (102) is arranged on the cover (103).

4. The sweeping robot base station of claim 3, wherein: including the response module, the response module is used for responding to people and/or sweeps the floor robot and is close to basic station body (1) and produce corresponding induction signal in order to control hide (103) driving piece drive hide (103) open and close throw the mouth (102).

5. The sweeping robot base station of claim 1, wherein: the throwing port (102) is formed on the top surface of the base station body (1).

6. The sweeping robot base station of claim 1, wherein: the base station body (1) is provided with a dust suction port (104) for sucking garbage in the sweeping robot into the base station body (1);

the base station comprises a base station body (1), and is characterized in that the base station body (1) is provided with a detection mechanism (3), the detection mechanism (3) is used for detecting whether a dust outlet in the sweeping robot is opposite to a dust suction outlet (104) in the base station body (1) or not in a state that the sweeping robot returns to the station.

7. The sweeping robot base station of claim 6, wherein: the opposite detection mechanism (3) comprises at least two trigger structures (301) arranged on the base station body (1); and under the condition that each trigger structure (301) is triggered by the trigger parts matched with the trigger structures one by one on the sweeping robot, whether the dust outlet on the sweeping robot is opposite to the dust suction port (104) on the base station body (1) or not is judged.

8. The sweeping robot base station of claim 7, wherein: the trigger structure (301) comprises a movable piece (3011), a travel switch (3012) and a reset piece (3013), the movable piece (3011) is movably mounted on the base station body (1), and the travel switch (3012) is arranged on a movable track of the movable piece (3011); the reset piece (3013) acts on the movable piece (3011) to enable the movable piece to have a tendency of being far away from the travel switch (3012); when the sweeper body returns to the station, the trigger part on the sweeping robot abuts against the corresponding moving part (3011) and drives the moving part (3011) to move towards the side close to the travel switch (3012).

9. The sweeping robot base station of claim 8, wherein: the base station body (1) is provided with a movable matching part (105) at the position where the movable part (3011) is installed, a sliding sleeve hole (1051) is formed in the movable matching part (105), and the movable part (3011) is provided with a sliding matching column (3011 a) matched with the sliding sleeve hole (1051); the reset piece (3013) is an elastic piece, the reset piece (3013) is sleeved on the sliding matching column (3011 a), and two ends of the reset piece are respectively abutted to the movable matching part (105) and the movable part (3011); the base station body (1) is provided with an exposure hole (106) for exposing the movable piece (3011).

10. The sweeping robot base station of claim 7, wherein: first charging structure (2) set up on trigger structure (301), the trigger part of the robot of sweeping the floor triggers corresponding under the state of trigger structure (301), first charging structure (2) and the second charging structure matching contact that corresponds on the robot of sweeping the floor charge for the robot of sweeping the floor.

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