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US-20260123802-A1 - VACUUM CLEANER BASE STATION

US20260123802A1US 20260123802 A1US20260123802 A1US 20260123802A1US-20260123802-A1

Abstract

Disclosed is a vacuum cleaner base station. The vacuum cleaner base station includes a housing and a butt joint portion detachably connected to the housing and connected to a handheld vacuum cleaner. The housing includes a first chamber and a second chamber, a dust collection motor is arranged in the second chamber, and the dust collection motor is configured to suck gas from the first chamber to generate a suction force for sucking dust from a dust bucket of the handheld vacuum cleaner. A dust bag is detachably connected in the first chamber, and when the dust bag does not collect dust, the first chamber can further store the butt joint portion and the disassembled handheld vacuum cleaner. The vacuum cleaner base station can accommodate an accommodation box of the handheld vacuum cleaner and the butt joint portion, and thus the package and transportation costs are saved on.

Inventors

  • Jun Zhang

Assignees

  • Suzhou Kingbow Electrical Appliances Co., Ltd

Dates

Publication Date
20260507
Application Date
20260106
Priority Date
20251215

Claims (17)

  1. 1 . A vacuum cleaner base station, comprising a housing and a butt joint portion detachably connected to the housing and connected to a handheld vacuum cleaner; wherein the housing comprises a first chamber and a second chamber, a dust collection motor is arranged in the second chamber, and the dust collection motor is configured to suck gas from the first chamber to generate a suction force for sucking dust from a dust bucket of the handheld vacuum cleaner; and a dust bag is detachably connected in the first chamber, and when the dust bag does not collect dust, the first chamber further stores the butt joint portion and the disassembled handheld vacuum cleaner.
  2. 2 . The vacuum cleaner base station according to claim 1 , wherein the housing comprises a casing and a front cover plate detachably connected to the casing, a first opening communicating with the first chamber is formed in a front side of the casing, the front cover plate covers the first opening, a sealing ring surrounding the first opening is arranged between the front cover plate and the casing, and the handheld vacuum cleaner, the butt joint portion, and the dust bag enter and exit the first chamber through the first opening.
  3. 3 . The vacuum cleaner base station according to claim 2 , wherein an insertion protrusion is arranged on one edge of the front cover plate, a slot corresponding to the insertion protrusion is formed in the casing, and at least one magnetic attraction assembly is arranged between the front cover plate and the casing.
  4. 4 . The vacuum cleaner base station according to claim 1 , wherein a cavity of the housing is cuboid, the cavity of the housing is partitioned by a partition assembly into the first chamber and the second chamber, and the second chamber is smaller than the first chamber and is positioned at a bottom corner of the cavity of the housing.
  5. 5 . The vacuum cleaner base station according to claim 4 , wherein the housing further comprises an upper plate, a lower plate, two side plates, and a rear plate, the partition assembly comprises a surrounding plate fixedly connected to the lower plate, one of the side plates, and the rear plate, a top plate is fixed to a top of the surrounding plate, a second opening communicating with the second chamber is formed in the lower plate, and the dust collection motor enters and exits the second chamber through the second opening; a first through hole enabling communication between the first chamber and the second chamber is formed in the top plate, and an air inlet of the dust collection motor is aligned with the first through hole; and a second through hole enabling communication between the second chamber and an external space of the housing is formed in the one of the side plates or the rear plate, and an air outlet of the dust collection motor is aligned with the second through hole.
  6. 6 . The vacuum cleaner base station according to claim 1 , wherein a first circuit board is further arranged in the second chamber, a connection wire is fixed to the first circuit board, a plug is fixed to an end portion of the connection wire, and the connection wire and the plug are accommodated in the second chamber.
  7. 7 . The vacuum cleaner base station according to claim 6 , wherein a fixed plate is fixed in the second chamber, the fixed plate partitions the second chamber into an upper chamber and a lower chamber, the first circuit board and the dust collection motor are positioned in the upper chamber, the connection wire is accommodated in the lower chamber and connected to the first circuit board through a connector passing through the fixed plate, and a containing recess configured to contain the plug is formed upwards from a lower surface of the fixed plate.
  8. 8 . The vacuum cleaner base station according to claim 1 , wherein a butt joint recess allowing insertion of the butt joint portion is formed on an upper plate of the housing, a mounting seat plate is fixed to a top of the first chamber, a mounting recess is further formed in a position, corresponding to the butt joint recess, of the mounting seat plate, and the mounting recess is configured for insertion of the dust bag.
  9. 9 . The vacuum cleaner base station according to claim 1 , wherein buffer foam is arranged in the first chamber, and the buffer foam is provided with placement recesses for placing each portion of the disassembled handheld vacuum cleaner and the butt joint portion respectively.
  10. 10 . The vacuum cleaner base station according to claim 2 , wherein buffer foam is arranged in the first chamber, and the buffer foam is provided with placement recesses for placing each portion of the disassembled handheld vacuum cleaner and the butt joint portion respectively.
  11. 11 . The vacuum cleaner base station according to claim 3 , wherein buffer foam is arranged in the first chamber, and the buffer foam is provided with placement recesses for placing each portion of the disassembled handheld vacuum cleaner and the butt joint portion respectively.
  12. 12 . The vacuum cleaner base station according to claim 4 , wherein buffer foam is arranged in the first chamber, and the buffer foam is provided with placement recesses for placing each portion of the disassembled handheld vacuum cleaner and the butt joint portion respectively.
  13. 13 . The vacuum cleaner base station according to claim 5 , wherein buffer foam is arranged in the first chamber, and the buffer foam is provided with placement recesses for placing each portion of the disassembled handheld vacuum cleaner and the butt joint portion respectively.
  14. 14 . The vacuum cleaner base station according to claim 6 , wherein buffer foam is arranged in the first chamber, and the buffer foam is provided with placement recesses for placing each portion of the disassembled handheld vacuum cleaner and the butt joint portion respectively.
  15. 15 . The vacuum cleaner base station according to claim 7 , wherein buffer foam is arranged in the first chamber, and the buffer foam is provided with placement recesses for placing each portion of the disassembled handheld vacuum cleaner and the butt joint portion respectively.
  16. 16 . The vacuum cleaner base station according to claim 8 , wherein buffer foam is arranged in the first chamber, and the buffer foam is provided with placement recesses for placing each portion of the disassembled handheld vacuum cleaner and the butt joint portion respectively.
  17. 17 . The vacuum cleaner base station according to claim 1 , wherein the housing is cuboid, and the housing has a length in an up-down direction not greater than 440 mm, a width in a left-right direction less than 330 mm, and a thickness in a front-rear direction less than 190 mm.

Description

TECHNICAL FIELD The present disclosure relates to the technical field of vacuum cleaners, and in particular to a vacuum cleaner base station. BACKGROUND With the growth in family living standard, vacuum cleaners are becoming increasingly important in family life. The vacuum cleaner generally includes a vacuum cleaner base station and a handheld vacuum cleaner. After used, the handheld vacuum cleaner can be docked at the vacuum cleaner base station. While docked at the vacuum cleaner base station, the handheld vacuum cleaner can complete the work of recharging, clearing dust in a dust collection cup, etc. To be specific, an existing vacuum cleaner integrates the functions of supporting the handheld vacuum cleaner, recharging the handheld vacuum cleaner, and collecting dust. When the vacuum cleaner is sold and transported, it is common practice to package the vacuum cleaner base station as a component of the vacuum cleaner, and the handheld vacuum cleaner in two boxes respectively or in a larger box. As a result, the transportation cost and the enterprise cost are increased. SUMMARY To overcome the above defects, an objective of the present disclosure is to provide a vacuum cleaner base station that can accommodate an accommodation box of a handheld vacuum cleaner and a butt joint portion, and thus the package and transportation costs are saved on. To achieve the above objective, the present disclosure employs the technical solution as follows: a vacuum cleaner base station is provided. The vacuum cleaner base station includes a housing and a butt joint portion detachably connected to the housing and connected to a handheld vacuum cleaner; where the housing includes a first chamber and a second chamber, a dust collection motor is arranged in the second chamber, and the dust collection motor is configured to suck gas from the first chamber to generate a suction force for sucking dust from a dust bucket of the handheld vacuum cleaner; and a dust bag is detachably connected in the first chamber, and when the dust bag does not collect dust, the first chamber further stores the butt joint portion and the disassembled handheld vacuum cleaner. The vacuum cleaner base station takes the transportation demand of a vacuum cleaner into account, and rationally utilizes the first chamber for placing the dust bag. Thus, a space of the first chamber is expanded, a larger dust bag can be employed, more dust can be stored, and the frequency of replacing the dust bag can be reduced. Moreover, during transportation and accommodation, the butt joint portion and the disassembled handheld vacuum cleaner can be stored in the first chamber, and thus the vacuum cleaner base station also has a storage function. During package of the vacuum cleaner, it is not required to use a plurality of boxes, and an entire vacuum cleaner is packaged through the vacuum cleaner base station, so that the cost is saved on. Further, the housing includes a casing and a front cover plate detachably connected to the casing, where a first opening communicating with the first chamber is formed in a front side of the casing, the front cover plate covers the first opening, a sealing ring surrounding the first opening is arranged between the front cover plate and the casing, and the handheld vacuum cleaner, the butt joint portion, and the dust bag enter and exit the first chamber through the first opening. Furthermore, an insertion protrusion is arranged on one edge of the front cover plate, a slot corresponding to the insertion protrusion is formed in the casing, and at least one magnetic attraction assembly is arranged between the front cover plate and the casing. Further, a cavity of the housing is cuboid, the cavity of the housing is partitioned by a partition assembly into the first chamber and the second chamber, and the second chamber is smaller than the first chamber and is positioned at a bottom corner of the cavity of the housing. According to the position of the second chamber, the cavity of the housing can be better utilized. In this case, the partition of the cavity is optimal, so that the components to be accommodated can be accommodated in the housing. Further, the housing further includes an upper plate, a lower plate, two side plates, and a rear plate, the partition assembly includes a surrounding plate fixedly connected to the lower plate, one of the side plates, and the rear plate, a top plate is fixed to a top of the surrounding plate, a second opening communicating with the second chamber is formed in the lower plate, and the dust collection motor enters and exits the second chamber through the second opening; a first through hole enabling communication between the first chamber and the second chamber is formed in the top plate, and an air inlet of the dust collection motor is aligned with the first through hole; and a second through hole enabling communication between the second chamber and an external space of the housing is formed in the