CN216776934U - Turntable cleaning boss and cleaning base for self-cleaning robot - Google Patents

Abstract

The utility model discloses a rotary disc cleaning boss for a self-cleaning robot, wherein the top surface of the rotary disc cleaning boss supports a mop rotary disc at the bottom of the self-cleaning robot, a scraping disc structure and a water outlet groove for cleaning mops arranged on the mop rotary disc are arranged on the top surface, the lengths of the scraping disc structure and the water outlet groove are more than or equal to the radius of the mop rotary disc, the water outlet groove is arranged along a straight line passing through a rotary shaft of the mop rotary disc, the upper end of the water outlet groove is provided with a water outlet for injecting water into the water outlet groove, and the water outlet is connected with a water supply pipeline of a self-cleaning base station where the rotary disc cleaning boss is positioned. The rotary disc cleaning boss for the self-cleaning robot is provided with the scraping disc structure, and can be deeply penetrated into the surface of a mop cloth, so that the passing mop cloth is deeply extruded, and a better cleaning effect is achieved; meanwhile, the water outlet groove is formed, so that the mop can be uniformly absorbed by water, the cleaning effect is better, and the waste of water resources is avoided.

Description

Turntable cleaning boss and cleaning base for self-cleaning robot

Technical Field

The utility model relates to the technical field of self-cleaning robot base station design, in particular to a turntable cleaning boss and a cleaning base for a self-cleaning robot.

Background

The self-cleaning robot is a novel cleaning household appliance which is gradually popularized, and because the self-cleaning robot is almost free from manual operation of a user, a large amount of daily cleaning time can be saved, so that the self-cleaning robot is popular among the users. The cleaning of mop just can be accomplished to current automatically cleaning robot need use with the basic station cooperation, be equipped with in the basic station with the clean base of robot complex, can be to the mop blowout clear water, then extrude the water in the mop through frictional mode. However, the existing cleaning base generally sprays clean water to the mop, the mop absorbs water unevenly due to the limitation of the water outlet, some places can absorb more water, and some places cannot absorb water completely, so that the cleaning effect is reduced greatly. There is therefore a need for an improved cleaning foot for a self-cleaning robot.

Disclosure of Invention

Aiming at the problem that the mop cloth cannot be cleaned due to the fact that the design of a base of a cleaning base station in the prior art is incomplete, the utility model provides a rotary disc cleaning boss for a self-cleaning robot and a cleaning base with the rotary disc cleaning boss.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model provides a clean boss of carousel that automatically cleaning robot used, the top surface supporting of the clean boss of carousel the mop carousel of automatically cleaning robot bottom, be equipped with the scraping disk structure and the play basin that are used for the clean mop of setting on the mop carousel on the top surface of the clean boss of carousel, the length more than or equal to of scraping disk structure and play basin the radius of mop carousel, go out the basin along the process the straight line setting of mop carousel pivot, the upper end of going out the basin is equipped with the delivery port that is used for to going out the interior water injection of basin, the delivery port is connected with the water supply line of the automatically cleaning basic station at the clean boss place of carousel.

The technical scheme adopted by the utility model for solving the technical problem further comprises the following steps:

according to the rotary disc cleaning boss for the self-cleaning robot, the top surface is an inclined surface with an angle matched with the mop rotary disc of the self-cleaning robot.

The rotary table cleaning lug boss for the self-cleaning robot is characterized in that the scraping disc structure is a convex point array arranged along the length direction of the rotary table cleaning lug boss, the convex point array comprises more than three cleaning convex points which are arranged along a straight line, the cleaning convex points protrude upwards, the convex point array is provided with more than two lines, the cleaning convex points of adjacent convex point arrays are arranged at intervals, and the convex point arrays are arranged in front of the water outlet groove.

According to the rotary disc cleaning boss for the self-cleaning robot, the cleaning salient points are triangular pyramid-shaped, and one edge of each cleaning salient point is arranged along the rotation direction of the mop rotary disc and is arranged in front of the rotation direction.

According to the turntable cleaning boss for the self-cleaning robot, the water outlet is arranged upwards, and the water outlet groove corresponding to the water outlet is provided with the water baffle for preventing water flow from being directly sprayed onto a mop cloth. A cleaning base of a self-cleaning robot base station is characterized in that a stopping cavity for stopping the self-cleaning robot is arranged in the cleaning base, any rotary disc cleaning boss is arranged at the bottom of the stopping cavity, the rotary disc cleaning boss is arranged at a position corresponding to a mop rotary disc at the bottom of the self-cleaning robot stopped in the stopping cavity, and an inlet and an outlet for the self-cleaning robot to enter and exit are formed in one side of the stopping cavity.

According to the cleaning base of the self-cleaning robot base station, the bottom of the parking cavity is provided with the sewage collecting port, the sewage collecting port is detachably provided with the filtering grating, the shape of the filtering grating is matched with that of the sewage collecting port, and the inner side of the filtering grating is provided with the sewage collecting pipe for extracting sewage.

According to the cleaning base of the self-cleaning robot base station, the supporting bosses for assisting in supporting the self-cleaning robot are arranged between the turntable cleaning bosses, the supporting bosses are arranged along the in-out direction of the self-cleaning robot, the supporting bosses are provided with the friction bumps for increasing friction, and the friction bumps are distributed on the upper surfaces of the supporting bosses in a matrix manner.

According to the cleaning base of the self-cleaning robot base station, the slope surface which is convenient for the self-cleaning robot to enter and exit the parking cavity is arranged on the outer side of the inlet and the outlet, the slope surface is provided with the friction convex points, and the friction convex points are distributed on two sides of the slope surface in a matrix manner.

According to the cleaning base of the self-cleaning robot base station, the bottom of the parking cavity is provided with four rotary table cleaning bosses which comprise two inner cleaning bosses arranged on the inner side of the accommodating cavity and two outer cleaning bosses arranged on the outer side, the two inner cleaning bosses are adjacent and symmetrically arranged at the bottom of the accommodating cavity, the supporting bosses are arranged at the bottom of the accommodating cavity in front of the inner cleaning bosses, and the outer cleaning bosses are symmetrically arranged on two sides of the supporting bosses.

The utility model has the beneficial effects that: the rotary disc cleaning boss for the self-cleaning robot is provided with the scraping disc structure matched with the mop rotary disc of the self-cleaning robot, and can deeply penetrate into the surface of a mop, so that the passing mop is deeply extruded, the dirt in the mop is scraped, and a better cleaning effect is achieved; meanwhile, the water outlet groove is arranged, so that compared with the existing method of directly spraying water onto the mop, the mop can absorb water more uniformly, the cleaning effect is better, and the waste of water resources is avoided; a plurality of rotary disc cleaning bosses are arranged in the cleaning base according to the design of the cleaning robot, the positions, the heights and the angles of the rotary disc cleaning bosses are completely matched with the positions, the heights and the angles of the mop rotary disc of the cleaning robot, and the mop can be better cleaned by matching with the actions of the cleaning robot.

The utility model will be further described with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic perspective view of a turntable cleaning boss of a self-cleaning robot according to a first embodiment of the present invention;

fig. 2 is a schematic perspective view of a cleaning base of a self-cleaning robot base station according to a second embodiment of the present invention;

in the figure, 1, a rotary disc cleaning boss, 11, a water outlet groove, 111, a water baffle, 12, cleaning convex points, 2, a sewage collecting port, 21, a filtering grid, 3, a supporting boss, 31, friction convex points, 4 and a slope surface.

Detailed Description

The present embodiment is a preferred embodiment of the present invention, and other principles and basic structures that are the same as or similar to the present embodiment are within the scope of the present invention.

Referring to fig. 1, a rotary plate cleaning boss for a self-cleaning robot according to a first embodiment of the present invention is provided with a mop rotary plate supporting the bottom of the self-cleaning robot on the top surface of the rotary plate cleaning boss 1, and a scraping plate structure and a water outlet groove 11 for cleaning a mop arranged on the mop rotary plate on the top surface. The length of the scraping disc structure and the water outlet groove 11 is larger than or equal to the radius of the mop rotating disc, the water outlet groove 11 is arranged along a straight line passing through a rotating shaft of the mop rotating disc, a water outlet used for injecting water into the water outlet groove 11 is formed in the upper end of the water outlet groove 11, and the water outlet is connected with a water supply pipeline of the self-cleaning base station where the rotary disc cleaning lug boss 1 is located. When the mop rotary disc is cleaned, clear water flows out of the water outlet and fills the water outlet groove, and when the rotary disc cleaning lug boss 1 rotates, the clear water can uniformly contact with water, so that the mop can be uniformly wetted.

In this embodiment, the top surface of the rotary cleaning boss 1 is an inclined surface whose angle is matched with 20 degrees of the mop rotary disc of the self-cleaning robot, and in the specific production implementation, the top surface of the rotary cleaning boss 1 is adjusted according to the setting of the mop rotary disc of the self-cleaning robot, and may be a horizontal surface or an inclined surface.

In this embodiment, the scraping disc structure is a bump queue arranged along the length direction of the rotating disc cleaning boss 1, the bump queue includes more than three cleaning bumps 12 arranged along a straight line, the cleaning bumps 12 protrude upwards, the bump queue is provided with more than two rows, the cleaning bumps 12 of adjacent bump queues are arranged at intervals, the bump queue is arranged in front of the water outlet groove 11 in the rotating direction of the mop rotating disc, and can be firstly contacted with the scraping disc structure when the mop rotating disc rotates. In this embodiment, two bump arrays are provided, and six and seven cleaning bumps 12 are provided in the two bump arrays, respectively, and when the specific production is implemented, the number of the cleaning bumps 12 should be set according to the length of the turntable cleaning bump 1.

The cleaning salient points 12 in the embodiment are triangular pyramids, one edge of each cleaning salient point 12 is arranged along the rotation direction of the mop rotating disc and is arranged in front of the rotation direction, the structure with the narrow front part and the wide back part can well penetrate into the cloth surface, and the passing mop can be deeply extruded.

In this embodiment, in order to facilitate the setting of the water outlet pipeline in the base, the volume of the rotary table for cleaning the boss 1 is prevented from being too large, the water outlet at the upper end of the water outlet groove 11 is opened upward, and the water baffle 111 for preventing water from directly spraying onto the mop is arranged at the opening of the water outlet groove 11 corresponding to the water outlet, so that the water is prevented from directly spraying onto the mop. When the concrete production is implemented, the water outlet can also be arranged along other directions which are horizontal and can not directly contact the mop cloth.

Referring to fig. 2, a cleaning base of a self-cleaning robot base station according to a second embodiment of the present invention is provided with a parking chamber for parking a self-cleaning robot, a turntable cleaning boss 1 according to the first embodiment is provided at the bottom of the parking chamber, the turntable cleaning boss 1 is provided at a position corresponding to a mop turntable at the bottom of the self-cleaning robot parked in the parking chamber, and an inlet and an outlet for the self-cleaning robot to enter and exit are provided at one side of the parking chamber.

The bottom of the chamber of stopping of this embodiment is equipped with sewage and collects mouth 2, and 2 detachable installations of sewage collection mouth have filter screen 21, and filter screen 21's shape is identical with the shape of sewage collection mouth 2, and filter screen 21 inboard is equipped with the sewage collecting pipe that is used for extracting sewage.

In order to enable the self-cleaning robot to smoothly enter and exit the parking cavity, a supporting boss 3 for assisting in supporting the self-cleaning robot is arranged between the turntable cleaning bosses 1, the supporting boss 3 is arranged along the entering and exiting direction of the self-cleaning robot, friction bumps 31 for increasing friction are arranged on the supporting boss 3, and the friction bumps 31 are distributed on the upper surface of the supporting boss 3 in a matrix manner. The outer side of the inlet and outlet is provided with a slope 4 which is convenient for the self-cleaning robot to enter and exit the parking cavity, the slope 4 is provided with friction salient points 31, and the friction salient points 31 are distributed on two sides of the slope in a matrix manner.

In this embodiment, the bottom of parking chamber is equipped with four clean bosss 1 of carousel, including two clean bosss in setting intracavity side and two clean bosss outside that set up in the outside, the adjacent and symmetrical bottom that sets up the holding chamber of clean boss in two, support the holding chamber bottom in clean boss the place ahead including boss 3 sets up, the setting of outer clean boss symmetry is in the both sides that support boss 3.

The rotary disc cleaning boss for the self-cleaning robot is provided with the scraping disc structure matched with the mop rotary disc of the self-cleaning robot, and can deeply penetrate into the surface of a mop, so that the passing mop is deeply extruded, the dirt in the mop is scraped, and a better cleaning effect is achieved; meanwhile, the water outlet groove is arranged, so that compared with the existing method of directly spraying water onto the mop, the mop can absorb water more uniformly, the cleaning effect is better, and the waste of water resources is avoided; a plurality of rotary disc cleaning bosses are arranged in the cleaning base according to the design of the cleaning robot, the positions, the heights and the angles of the rotary disc cleaning bosses are completely matched with the positions, the heights and the angles of the mop rotary disc of the cleaning robot, and the mop can be better cleaned by matching with the actions of the cleaning robot.

Claims (10)

1. The utility model provides a clean boss of carousel (1) that self-cleaning robot used, its characterized in that, the top surface supporting of the clean boss of carousel (1) the mop carousel of self-cleaning robot bottom, be equipped with the scraping disk structure and play basin (11) that are used for the clean mop that sets up on the mop carousel on the top surface of the clean boss of carousel (1), the length more than or equal to of scraping disk structure and play basin (11) the radius of mop carousel, go out basin (11) along the process the straight line setting of mop carousel pivot, the upper end of play basin (11) is equipped with the delivery port that is used for to water injection in play basin (11), the delivery port is connected with the water supply pipeline of the automatically cleaning basic station at the clean boss of carousel (1) place.

2. Turntable cleaning elevation (1) according to claim 1, characterised in that the top surface is a bevel with an angle that fits the mop turntable of the self-cleaning robot.

3. The rotary disc cleaning boss (1) according to claim 1, wherein the scraping disc structure is a bump array arranged along the length direction of the rotary disc cleaning boss (1), the bump array comprises more than three cleaning bumps (12) arranged along a straight line, the cleaning bumps (12) protrude upwards, the bump array is provided with more than two columns, the cleaning bumps (12) of adjacent bump arrays are arranged at intervals, and the bump arrays are arranged in front of the water outlet groove (11).

4. Turntable cleaning elevation (1) according to claim 3, characterised in that the cleaning protrusions (12) are triangular pyramid-shaped, one of the edges of the cleaning protrusions (12) being arranged in the direction of rotation of the mop turntable and in front of the direction of rotation.

5. A turntable cleaning boss (1) according to claim 1, characterized in that the water outlet is opened upwards, and the opening of the water outlet groove (11) corresponding to the water outlet is provided with a water baffle (111) for preventing water flow from directly spraying the mop cloth.

6. A cleaning base of a self-cleaning robot base station, characterized in that a parking cavity for parking the self-cleaning robot is arranged in the cleaning base, a rotary disc cleaning boss (1) according to any one of claims 1-5 is arranged at the bottom of the parking cavity, the rotary disc cleaning boss (1) is arranged at a position corresponding to a mop rotary disc at the bottom of the self-cleaning robot parked in the parking cavity, and one side of the parking cavity is an inlet and an outlet for the self-cleaning robot to enter and exit.

7. The cleaning base according to claim 6, characterized in that the bottom of the resting chamber is provided with a sewage collecting port (2), a filtering grid (21) is detachably arranged at the sewage collecting port (2), the shape of the filtering grid (21) is matched with that of the sewage collecting port (2), and a sewage collecting pipe for extracting sewage is arranged on the inner side of the filtering grid (21).

8. The cleaning base of claim 6, characterized in that supporting bosses (3) for assisting in supporting the self-cleaning robot are arranged between the turntable cleaning bosses (1), the supporting bosses (3) are arranged along the in-out direction of the self-cleaning robot, friction protrusions (31) for increasing friction are arranged on the supporting bosses (3), and the friction protrusions (31) are distributed on the upper surface of the supporting bosses (3) in a matrix.

9. The cleaning base of claim 8, wherein a slope (4) is provided at the outer side of the inlet/outlet for the self-cleaning robot to enter and exit the parking chamber, friction protrusions (31) are provided on the slope (4), and the friction protrusions (31) are distributed on two sides of the slope (4) in a matrix.

10. The cleaning base according to claim 8, characterized in that the bottom of the parking chamber is provided with four turntable cleaning bosses (1), including two inner cleaning bosses arranged inside the accommodating chamber and two outer cleaning bosses arranged outside the accommodating chamber, the two inner cleaning bosses are adjacently and symmetrically arranged at the bottom of the accommodating chamber, the supporting bosses (3) are arranged at the bottom of the accommodating chamber in front of the inner cleaning bosses, and the outer cleaning bosses are symmetrically arranged at two sides of the supporting bosses (3).

Images