Mopping and cleaning structure of sweeping robot
Technical Field
The utility model relates to an annex for indoor clear robot of sweeping the floor, specifically speaking are clean structure of mopping of robot of sweeping the floor.
Background
Along with the continuous improvement of the living standard of people, the sweeping robot is produced. The floor sweeping robot can automatically finish floor cleaning work in a room by means of certain artificial intelligence. Generally comprises three steps of cleaning, dust absorption and mopping.
The mopping work of the existing sweeping robot is generally finished by adopting a mopping and cleaning structure. The floor mopping cleaning structure of the sweeping robot in the market adopts a double-turntable opposite-rotating floor mopping cleaning structure, the floor mopping efficiency of the floor mopping cleaning structure is not good, and the problem that the floor mopping is not clean is caused especially for stubborn stains and sometimes.
SUMMERY OF THE UTILITY MODEL
In order to solve the problem, the utility model provides a floor cleaning structure of sweeping robot which can effectively remove stubborn stains for the society.
The technical scheme of the utility model is that: the mopping and cleaning structure of the sweeping robot is suspended at the bottom of a sweeping robot main body, can rotate relative to the ground to mop and clean, and comprises a driving part, a first rotating disc, a second rotating disc and an excitation part;
the driving part comprises a driving motor which drives the first turntable and the second turntable to rotate;
the vibration exciting part is arranged on an output shaft of the driving motor and is used for vibrating the mopping cleaning structure when the mopping cleaning structure works.
As right the utility model discloses it is the improvement, driving motor's both ends are equipped with first output shaft and second output shaft respectively, first output shaft and second output shaft with first carousel with the line in the axle center of second carousel is parallel, just first output shaft passes through the drive of first drive mechanism first carousel is rotatory, the second output shaft passes through the drive of second drive mechanism the second carousel is rotatory.
As right the utility model discloses the improvement, the excitation part includes first excitation part at least, first excitation part is established on the extension section of first output shaft, works as when first output shaft is rotatory, relies on the effect of first excitation part and makes clean structure vibration of mopping.
As right the utility model discloses the improvement, the excitation part still includes second excitation part, the second excitation part is established on the extension section of second output shaft, work as when the second output shaft is rotatory, rely on the effect of second excitation part and make clean structure vibration of mopping.
As right the utility model discloses it is the improvement, driving motor's both ends are equipped with first output shaft and second output shaft respectively, first output shaft and second output shaft with first carousel with the line in the axle center of second carousel is perpendicular, just first output shaft drives respectively through first drive mechanism and second drive mechanism first carousel with the second carousel is rotatory, the excitation part is established on the second output shaft.
As a modification to the present invention, the excitation member is an eccentric wheel.
As right the utility model discloses the improvement, first drive mechanism includes first worm and first reduction gear group, first worm one end with first output shaft is connected, the first worm other end with the meshing of first reduction gear group.
As right the utility model discloses the improvement, second drive mechanism includes second worm and second reduction gear set, the one end of second worm with second output shaft, the other end of second worm with the meshing of second reduction gear set.
As an improvement of the utility model, a first cleaning cloth is arranged on the lower bottom surface of the first turntable; and a second cleaning cloth is arranged on the lower bottom surface of the second rotating disc.
The utility model discloses owing to adopted set up the structure of excitation part on driving motor's the output shaft, like this, work as when dragging the clean structure during operation of ground, the excitation part can vibrate drag the clean structure of ground to reach the purpose of cleaing away stubborn stain.
Drawings
Fig. 1 is a schematic plan view of a first embodiment of the present invention.
Fig. 2 is a schematic view of the cross-sectional structure a-a in fig. 1.
Fig. 3 is a schematic plan view of a second embodiment of the present invention.
Fig. 4 is an exploded schematic view of the sweeping robot of the present invention connected to the main body.
Fig. 5 is a schematic plan view of the assembled structure of fig. 4.
Fig. 6 is a schematic view of a sectional structure B-B in fig. 5.
Detailed Description
Referring to fig. 1 and 2, fig. 1 and 2 disclose a first embodiment of a floor mopping cleaning structure of a floor sweeping robot, the floor mopping cleaning structure includes a driving part 1, a first rotating disc 2, a second rotating disc 3 and an excitation part 4, and the floor mopping cleaning structure is suspended at the bottom of a floor sweeping robot main body 10 when in use, in this embodiment, the floor mopping cleaning structure is suspended at the bottom of the floor sweeping robot main body 10 through four soft connecting pieces 110, as shown in fig. 4-6, the soft connecting pieces 110 are cylindrical, one end of the cylinder is provided with a first annular groove 120 for movably connecting with the floor sweeping robot main body 10, and the other end of the cylinder is provided with a second annular groove 130 for movably connecting with the driving part 1 of the floor mopping cleaning structure; so connected, the mopping cleaning structure can be arranged to rotate relative to the ground for mopping cleaning; of course, in this embodiment, the flexible connector 110 may be replaced by an elastic coupling, which may be a spring or the like.
As shown in the figure, the driving portion 1 includes a driving motor 11, two ends of the driving motor 11 are respectively provided with a first output shaft 111 and a second output shaft 112, the first output shaft 111 and the second output shaft 112 are parallel to a connection line of the axes of the first rotating disk 2 and the second rotating disk 3, the first output shaft 111 drives the first rotating disk 2 to rotate through a first transmission mechanism 113, and the second output shaft 112 drives the second rotating disk 3 to rotate through a second transmission mechanism 114. In this embodiment, the driving portion 1 further includes a gear box 13, and the driving motor 11, the first output shaft 111, the second output shaft 112, the first transmission mechanism 113, and the second transmission mechanism 114 are all disposed in the gear box 13.
As shown in fig. 2, the exciting member 4 includes at least a first exciting member 41, and the first exciting member 41 is provided on an extension of the first output shaft 111, and vibrates the mopping structure by the action of the first exciting member 41 when the first output shaft 111 rotates.
The excitation member 4 further includes a second excitation member (not shown) provided on an extension of the second output shaft 112, and vibrates the mopping cleaning structure by virtue of the action of the second excitation member when the second output shaft 112 rotates.
Preferably, the vibration exciting part 4 is an eccentric wheel, and the vibration amplitude can be adjusted by adjusting the weight of the eccentric wheel. Through setting up excitation part 4 to make clean structure of mopping can be at the high-frequency vibration of mopping in-process, thereby reach the mesh of cleaing away stubborn stain.
Preferably, the first transmission mechanism 113 includes a first worm 1131 and a first reduction gear set 1132, one end of the first worm 1131 is connected to the first output shaft 111, and the other end of the first worm 1131 is engaged with the first reduction gear set 1132 (for convenience of illustration, the first reduction gear set 1132 is not shown in a complete figure).
Preferably, the second transmission mechanism 114 includes a second worm 1141 and a second reduction gear set 1142, one end of the second worm 1141 is connected to the second output shaft 112, and the other end of the second worm 1141 is engaged with the second reduction gear set 1142 (the second reduction gear set 1142 is not shown in the figure for convenience of illustration).
Preferably, a first cleaning cloth 21 is arranged on the lower bottom surface of the first rotating disc 2; the lower bottom surface of the second rotating disc 3 is provided with a second cleaning cloth 31, the first cleaning cloth 21 can be connected with the first rotating disc 2 through a first magic tape, and the second cleaning cloth 31 can be connected with the second rotating disc 3 through a second magic tape.
Referring to fig. 3, fig. 3 shows a second embodiment of a floor-mopping cleaning structure of a floor-sweeping robot, the embodiment shown in fig. 3 has the same general structure as the embodiment shown in fig. 1 and fig. 2, except that two ends of the driving motor 11 are respectively provided with a first output shaft 111 and a second output shaft 112, the first output shaft 111 and the second output shaft 112 are perpendicular to a connecting line of axes of the first rotating disk 2 and the second rotating disk 3, the first output shaft 111 respectively drives the first rotating disk 2 and the second rotating disk 3 to rotate through a first transmission mechanism 113 and a second transmission mechanism 114, and the excitation part 4 is arranged on the second output shaft 112.
Likewise, the vibration excitation part 4 is an eccentric wheel, and the vibration amplitude can be adjusted by adjusting the weight of the eccentric wheel.