CN216569824U

CN216569824U - Be applied to tray structure of cleaning machines people basic station

Info

Publication number: CN216569824U
Application number: CN202122587349.8U
Authority: CN
Inventors: 王晓宁; 蒋君; 谢忠幸; 张帅
Original assignee: Guangdong Lesheng Intelligent Technology Co ltd
Current assignee: Guangdong Lesheng Intelligent Technology Co ltd
Priority date: 2021-10-26
Filing date: 2021-10-26
Publication date: 2022-05-24
Anticipated expiration: 2031-10-26

Abstract

The utility model discloses a tray structure applied to a cleaning robot base station, which comprises a tray body, wherein a bracket is arranged in the tray body, a wave wheel disc corresponding to a mop cloth of a cleaning robot is arranged in the bracket, and the mop cloth of the cleaning robot is pressed on the wave wheel disc when the cleaning robot cleans; the side wall of the tray body is provided with a launder, the tail end of the launder is butted with a water supply port of the base station host, and the front end of the launder is communicated with the bracket to form a water supply structure when the mop is cleaned. According to the mop cleaning device, the wave wheel disc and the corresponding water flowing groove are arranged in the bracket of the tray, so that the mop can be effectively cleaned through mutual friction with the mop when the mop is cleaned. The water flowing groove is designed into a V-shaped structure, so that the water flowing speed can be improved, the mop can be wetted more quickly, and the cleaning effect on the mop is improved in an auxiliary manner; in addition, the convex beads are arranged on the impeller disc, so that the mop can be rubbed in all directions without dead angles, and the cleaning effect is further improved.

Description

Be applied to tray structure of cleaning machines people basic station

Technical Field

The utility model relates to the technical field of sanitary auxiliary products, in particular to a tray structure applied to a cleaning robot base station.

Background

Along with the development of science and technology and the improvement of living standard, the family hygiene is more emphasized by people, so that various cleaning robots, such as floor sweeping machines, floor washing machines, dust collectors, floor mopping machines, all-in-one washing and mopping machines and other products, are more and more widely applied to help people to improve the environmental quality level of places such as life and work. In the products, some sweeping robots are separately provided with dust collectors, so that the sweeping robots have a dust collecting function; some mops are equipped to realize the mopping function. However, when the existing cleaning robots are used, the mops are often dirty, and the users need to clean the mops manually, so that inconvenience is brought to the users. For this reason, some base station equipment for helping to clean mops of cleaning robots is invented, but the cleaning of the mops cannot be well realized by the existing equipment, and the cleanliness of the cleaning is still required to be improved.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides the tray structure which is simple in structure, convenient to use and beneficial to improving the cleaning cleanliness and is applied to the cleaning robot base station. The tray structure can be applied to a cleaning robot base station with the functions of cleaning mops and collecting dust in the utility model patent applied by the applicant in another case.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides a be applied to tray structure in cleaning machines people basic station, including the disk body, its characterized in that: the tray body is provided with a bracket, the bracket is internally provided with a wave wheel tray corresponding to the mop of the cleaning robot, and the mop of the cleaning robot is pressed on the wave wheel tray when the cleaning robot cleans; the side wall of the tray body is provided with a water flowing groove, the tail end of the water flowing groove is in butt joint with a water supply port of the base station host, and the front end of the water flowing groove is communicated with the bracket to form a water supply structure when the mop is cleaned.

Furthermore, the number of the water flowing grooves is the same as that of the impeller discs, and each water flowing groove is aligned to one impeller disc.

Furthermore, the water flowing groove is of a V-shaped structure, the front end of the water flowing groove is narrower than the tail end of the water flowing groove, the water flow can be accelerated due to the V-shaped design of the water flowing groove, the water pressure is increased, and the cleaning effect on the mop cloth is effectively improved; the front end of the water flowing groove is provided with a water outlet which faces to the corresponding impeller disc, and the impeller disc is basically flush with the water outlet and can just flush the mop cloth, so that the mop cloth is more fully wetted.

Furthermore, each impeller disc is respectively provided with three impeller arms extending outwards, and the three impeller arms are arranged at an included angle of 120 degrees and are similar to the impeller disc at the bottom of the barrel of the impeller washing machine. The upper surface of each impeller arm is fully distributed with arc convex beads.

Furthermore, an additional arm with a V-shaped structure is arranged between the two impeller disks, and the additional arm blocks the gap between the two impeller disks to prevent the mop from sliding along the gap and not being effectively cleaned; the upper surface of the additional arm is full of arc convex beads.

Furthermore, two auxiliary arms extending into the bracket are arranged along the groove wall of the bracket, and the two auxiliary arms respectively block the gap between the two rotary tables and the groove wall of the bracket, so that the mop is prevented from sliding along the gap and not being effectively cleaned; the upper surfaces of the two auxiliary arms are all fully distributed with arc convex beads. When the mop cloth is cleaned, the motor of the cleaning robot drives the mop cloth to rotate, so that the mop cloth, the impeller disc, the impeller arm, the additional arm and the auxiliary arm are subjected to rotary friction, and the cleaning of the mop cloth is realized. And the convex beads can realize all-dimensional friction without dead angles with the mop, so that the cleaning effect is further improved.

Furthermore, the front end of the tray body is provided with a butt joint part, an access channel assembly for the cleaning robot to enter and exit the base station is arranged through the butt joint part, and the butt joint part is provided with a positioning groove for parking a caster wheel of the cleaning robot and stopping the caster wheel. Therefore, the cleaning robot can conveniently enter and exit the base station by itself, and the mop can be cleaned without manual intervention.

According to the mop cleaning device, the wave wheel disc and the corresponding water flowing groove are arranged in the bracket of the tray, so that the mop can be effectively cleaned through mutual friction with the mop when the mop is cleaned. The water flowing groove is designed into a V-shaped structure, so that the water flowing speed can be improved, the mop can be wetted more quickly, and the cleaning effect on the mop is improved in an auxiliary manner; in addition, the convex beads are arranged on the impeller disc, so that all-dimensional friction without dead angles can be realized, and the cleaning effect is further improved.

Drawings

FIG. 1 is an overall structural view of the present invention;

fig. 2 is a structural diagram of a base station host in a combined state according to the present invention.

In the figure, 1 is a tray body, 2 is a flume, 21 is a water outlet, 3 is a wave wheel disc, 4 is a wave wheel arm, 5 is an additional arm, 6 is an auxiliary arm, 7 is a convex ball, 8 is a butt joint part, 81 is a positioning groove, 9 is a sewage inlet, 10 is a base station host, 11 is a bracket, and 12 is an access channel component.

Detailed Description

In this embodiment, referring to fig. 1 and 2, the tray structure applied to the cleaning robot base station includes a tray body 1, a bracket 11 is provided in the tray body 1, a pulsator disc 3 corresponding to a mop of a cleaning robot (not shown) is provided in the bracket 11, and when the cleaning robot performs cleaning, the mop of the cleaning robot presses on the pulsator disc 3; a water flowing groove 2 is arranged on the rear side wall of the tray body 1, the tail end of the water flowing groove 2 is butted with a water supply port of the base station host 10, and the front end of the water flowing groove 2 is communicated with a bracket 11 to form a water supply structure when the mop is cleaned.

The number of the water flowing grooves 2 is the same as that of the impeller discs 3, and the water flowing grooves 2 are arranged at two positions, and each water flowing groove 2 is aligned to one impeller disc 3, so that each mop is supplied with water by one water flowing groove 2.

The water flowing groove 2 is of a V-shaped structure, the front end of the water flowing groove is narrower than the tail end of the water flowing groove, the V-shaped design of the water flowing groove 2 can make water flow quicken, the water pressure increase, and the cleaning effect on the mop cloth is effectively improved; the front end of the water flowing groove 2 is provided with a water outlet 21, the water outlet 21 faces the corresponding impeller disc 3, the impeller disc 3 is basically flush with the water outlet 21 and can just flush the mop cloth, so that the mop cloth is more fully wetted.

Each wave wheel disc 3 is respectively provided with three wave wheel arms 4 extending outwards, and the three wave wheel arms 4 are arranged at an included angle of 120 degrees and are similar to a wave wheel disc at the bottom of a barrel of a wave wheel washing machine. The upper surface of each impeller arm 4 is fully distributed with arc convex beads 7.

An additional arm 5 with a V-shaped structure is arranged between the two impeller discs 3, and the additional arm 5 blocks the gap between the two impeller discs 3 to prevent the mop from sliding along the gap and not being effectively cleaned; the upper surface of the additional arm 5 is covered with an arc-shaped convex bead 7.

Two auxiliary arms 6 extending into the bracket are arranged along the groove wall of the bracket 11, and the two auxiliary arms 6 respectively block the gap between the two rotary tables 3 and the groove wall of the bracket 11, so that the mop is prevented from sliding along the gap and not being effectively cleaned; the upper surfaces of the two auxiliary arms 6 are all distributed with arc convex beads 7. When the mop cloth is cleaned, the motor of the cleaning robot drives the mop cloth to rotate, so that the mop cloth is in rotary friction with the impeller disc 3, the impeller arm 4, the additional arm 5 and the auxiliary arm 6, and the cleaning of the mop cloth is realized. And the convex beads 7 can realize all-dimensional friction without dead angles with the mop, so that the cleaning effect is further improved.

The front end of the tray body 1 is provided with a butt joint part 8, an access passage component 12 for the cleaning robot to access the base station is arranged through the butt joint part 8, and the butt joint part 8 is provided with a positioning groove 81 for parking the caster of the cleaning robot and stopping the caster. Therefore, the cleaning robot can conveniently enter and exit the base station by itself, and the mop can be cleaned without manual intervention.

The present invention has been described in detail, and it should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the utility model, are intended for purposes of illustration only and are not intended to limit the scope of the utility model.

Claims

1. The utility model provides a be applied to tray structure in cleaning machines people basic station, including the disk body, its characterized in that: the tray body is provided with a bracket, the bracket is internally provided with a wave wheel tray corresponding to the mop of the cleaning robot, and the mop of the cleaning robot is pressed on the wave wheel tray when the cleaning robot cleans; the side wall of the tray body is provided with a water flowing groove, the tail end of the water flowing groove is in butt joint with a water supply port of the base station host, and the front end of the water flowing groove is communicated with the bracket to form a water supply structure when the mop is cleaned.

2. The tray structure applied to a cleaning robot base station according to claim 1, wherein: the number of the water flowing grooves is the same as that of the impeller discs, and each water flowing groove is aligned to one impeller disc.

3. The tray structure applied to the cleaning robot base station as set forth in claim 2, wherein: the water flowing groove is of a V-shaped structure, the front end of the water flowing groove is narrower than the tail end of the water flowing groove, the front end of the water flowing groove is provided with a water outlet, the water outlet faces to the corresponding impeller disc, and the impeller disc is basically flush with the water outlet.

4. The tray structure applied to a cleaning robot base station according to claim 1, wherein: each impeller disc is provided with three impeller arms extending outwards respectively, the three impeller arms are arranged at an included angle of 120 degrees, and arc-shaped convex beads are fully distributed on the upper surface of each impeller arm.

5. The tray structure applied to a cleaning robot base station according to claim 1, wherein: an additional arm with a V-shaped structure is arranged between the two impeller disks, and the gap between the two impeller disks is blocked by the additional arm; the upper surface of the additional arm is full of arc convex beads.

6. The tray structure applied to a cleaning robot base station according to claim 1, wherein: two auxiliary arms extending into the bracket are arranged along the groove wall of the bracket, and gaps between the two wave wheel discs and the groove wall of the bracket are respectively blocked by the two auxiliary arms; the upper surfaces of the two auxiliary arms are all fully distributed with arc convex beads.

7. The tray structure applied to a cleaning robot base station according to claim 1, wherein: the front end of the tray body is provided with a butt joint part, an access channel component for the cleaning robot to enter and exit the base station is arranged through the butt joint part, and the butt joint part is provided with a positioning groove for parking the truckle of the cleaning robot and stopping the truckle.