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CN-224220082-U - Liquid storage assembly and cleaning equipment

CN224220082UCN 224220082 UCN224220082 UCN 224220082UCN-224220082-U

Abstract

The utility model discloses a liquid storage assembly and cleaning equipment, wherein the liquid storage assembly comprises a first liquid storage container provided with a first cavity, a second liquid storage container arranged on the first liquid storage container and provided with a second cavity, and a driving assembly arranged on the first liquid storage container and/or the second liquid storage container and configured to convey external liquid into the first cavity and the second cavity.

Inventors

  • ZHANG MINGCONG

Assignees

  • 麦悦未来智能科技(苏州)有限公司

Dates

Publication Date
20260512
Application Date
20250529

Claims (17)

  1. 1. A reservoir assembly, comprising: A first liquid storage container (100) provided with a first chamber; A second liquid storage container (200) arranged on the first liquid storage container (100), wherein the second liquid storage container (200) is provided with a second chamber (201); -a drive assembly (300) provided on the first reservoir (100) and/or the second reservoir (200), the drive assembly (300) being configured to deliver an external liquid into the first and second chambers (201).
  2. 2. A liquid storage assembly according to claim 1, wherein a first fluid passage is formed in communication with the first chamber by the driving assembly (300), a second fluid passage is formed in communication with the second chamber (201) by the driving assembly (300), and an airtight port (600) capable of communicating with the first fluid passage and the second fluid passage is provided on the first liquid storage container (100) and/or the second liquid storage container (200); The airtight port (600) can form an airtight detection passage through the first fluid passage and an external interface (230) of the first liquid storage container (100), and the airtight port (600) can also form an airtight detection passage through the second fluid passage and a second container inlet (210) of the second liquid storage container (200).
  3. 3. The fluid storage assembly according to claim 1, wherein the first fluid storage container (100) has a recessed area formed thereon, the second fluid storage container (200) and the drive assembly (300) being disposed in the recessed area, wherein the recessed area includes a first recess (150) for receiving the second fluid storage container (200) and a second recess (160) for receiving the drive assembly (300).
  4. 4. A reservoir assembly according to claim 3, wherein the first recess (150) is located in the centre of the first reservoir (100) or near the centre of the first reservoir (100) and the second recess (160) is located near an edge of the first reservoir (100).
  5. 5. A reservoir assembly according to claim 1, wherein an interface on the second reservoir (200) for connection to the drive assembly (300) is located on the first reservoir (100).
  6. 6. A liquid storage assembly according to claim 1, wherein the first liquid storage container (100) is provided with a first interface (110) communicated with the second chamber (201) for external liquid to enter the second chamber (201), and a second interface (120) communicated with the second chamber (201) and connected with the driving assembly (300); The second liquid storage container (200) is provided with a second container inlet (210) matched with the first interface (110) and a second container outlet (220) matched with the second interface (120), and the second container inlet (210) and the second container outlet (220) are respectively communicated with the second chamber (201).
  7. 7. The fluid storage assembly of claim 6, wherein the second container inlet (210) is sealingly connected to the first port (110), and the second container outlet (220) is sealingly connected to the second port (120); The first liquid storage container (100) and/or the second liquid storage container (200) are/is provided with a sealing member (500), and the sealing member (500) is arranged around the joint of the second container inlet (210) and the first interface (110), and the joint of the second container outlet (220) and the second interface (120).
  8. 8. The liquid storage assembly according to claim 6, wherein the second liquid storage container (200) is detachably arranged on the first liquid storage container (100), and the installation direction between the second liquid storage container (200) and the first liquid storage container (100) is consistent with the plugging direction of the second container inlet (210) and the second container outlet (220).
  9. 9. A reservoir assembly according to claim 1, wherein the first reservoir (100) is provided with a first reservoir inlet (130) communicating with the first chamber and connected to the drive assembly (300), an adapter (140) connecting the drive assembly (300) to an external interface (230), an exhaust port (170) communicating with the external environment, a liquid outlet (181) for outputting liquid; The external interface (230) is arranged on the wall of the second liquid storage container (200), and the external interface (230) is communicated with the switching port (140).
  10. 10. A reservoir assembly as claimed in claim 1, wherein the drive assembly (300) comprises a first drive member (310) in fluid communication with the first chamber, a second drive member (320) in fluid communication with the second chamber (201), wherein the first drive member (310) and the second drive member (320) are at least partially coincident in projection in an up-down direction.
  11. 11. A reservoir assembly as claimed in claim 1, wherein the second reservoir (200) and the drive assembly (300) are located within the profile of the first reservoir (100).
  12. 12. A reservoir assembly as in claim 1 or 11, wherein the projections of the drive assembly (300) and the first chamber in the left-right direction at least partially overlap.
  13. 13. A reservoir assembly according to claim 1, wherein the first chamber and the second chamber (201) are at least partially overlapping in projection in an up-down direction.
  14. 14. A liquid storage assembly according to claim 1, wherein the second liquid storage container (200) partially overlaps with a projection of the driving assembly (300) in a front-rear direction, and a projection in a left-right direction also partially overlaps.
  15. 15. The fluid storage assembly of claim 1, wherein the first fluid storage container (100) further comprises a plurality of ribs (103) on a wall of the container, the plurality of ribs (103) being configured to form a routing space for the tubing on the wall of the first fluid storage container (100).
  16. 16. The reservoir assembly of claim 1, wherein at least two of the first reservoir (100), the second reservoir (200) and the drive assembly (300) are arranged in a vertical stack.
  17. 17. A cleaning device comprising a reservoir assembly as claimed in any one of claims 1 to 16.

Description

Liquid storage assembly and cleaning equipment Technical Field The utility model belongs to the technical field of cleaning equipment, and particularly relates to a liquid storage assembly and cleaning equipment. Background With the development of social economy, home cleaning gradually enters an intelligent and mechanized age, and the occurrence of the floor cleaning robot further releases heavy workload of people in the aspect of home cleaning and relieves the tiredness degree of people in the aspect of home cleaning. The floor cleaning robot is a machine for cleaning dust, dirt, etc. on the floor. Because the position setting of the clean water tank, the sewage tank and the pump assembly of the floor cleaning robot in the prior art is unreasonable, when the air tightness detection of the clean water tank and the sewage tank is problematic, the connection condition of the pipeline can be inspected only after other components (such as a dust box, a pump and the like) which are installed on the floor cleaning machine are detached, and the floor cleaning robot is inconvenient. Accordingly, there is a need for an improvement over the prior art to overcome the deficiencies described in the prior art. Disclosure of utility model Therefore, the technical problem to be solved by the utility model is to provide a liquid storage component and cleaning equipment. In order to solve the technical problems, the utility model provides a liquid storage assembly, which comprises a first liquid storage container, a second liquid storage container and a driving assembly, wherein the first liquid storage container is provided with a first cavity, the second liquid storage container is arranged on the first liquid storage container, the second liquid storage container is provided with a second cavity, the driving assembly is arranged on the first liquid storage container and/or the second liquid storage container, and the driving assembly is configured to convey external liquid into the first cavity and the second cavity. In some embodiments, the driving assembly is communicated with the first chamber to form a first fluid passage, the driving assembly is communicated with the second chamber to form a second fluid passage, and a gas-tight port capable of communicating with the first fluid passage and the second fluid passage is arranged on the first liquid storage container and/or the second liquid storage container; The airtight port can form an airtight detection passage through the first fluid passage and an external interface of the first liquid storage container, and can also form an airtight detection passage through the second fluid passage and a second container inlet of the second liquid storage container. In some embodiments, the first liquid storage container is formed with a recess area, the second liquid storage container and the driving assembly are arranged in the recess area, and the recess area comprises a first groove for accommodating the second liquid storage container and a second groove for accommodating the driving assembly. In some embodiments, the first groove is located at or near the center of the first reservoir, and the second groove is distributed near an edge of the first reservoir. In some embodiments, an interface on the second reservoir for connection to the drive assembly is located on the first reservoir. In some embodiments, the first liquid storage container is provided with a first interface communicated with the second chamber and used for allowing external liquid to enter the second chamber, and a second interface communicated with the second chamber and connected with the driving assembly; The second liquid storage container is provided with a second container inlet matched and connected with the first interface and a second container outlet matched and connected with the second interface, and the second container inlet and the second container outlet are respectively communicated with the second cavity. In some embodiments, the second container inlet is sealingly connected to the first port, and the second container outlet is sealingly connected to the second port; The sealing element is arranged on the first liquid storage container and/or the second liquid storage container, and the sealing element is arranged at the joint of the inlet of the second container and the first interface, and the joint of the outlet of the second container and the second interface in a surrounding manner. In some embodiments, the second liquid storage container is detachably arranged on the first liquid storage container, wherein the installation direction between the second liquid storage container and the first liquid storage container is consistent with the plugging direction of the second container inlet and the second container outlet. In some embodiments, the first liquid storage container is provided with a first container inlet communicated with the first chamber and connected with the driving a