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CN-224206761-U - Cleaning assembly and cleaning equipment

CN224206761UCN 224206761 UCN224206761 UCN 224206761UCN-224206761-U

Abstract

The disclosure provides a cleaning assembly and cleaning equipment, relates to cleaning equipment technical field. The cleaning assembly includes a driving shaft, a driven shaft, and a cleaning member. Along the radial direction of the driving shaft, the driven shaft and the driving shaft are arranged side by side, the driving shaft is used for driving the driven shaft to synchronously operate. The cleaning part is looped outside of locating part driving shaft and part driven shaft, and cleaning part includes inner wall and outer wall, and the inner wall is connected with driving shaft and driven shaft, and the outer wall is used for clean ground. The driving shaft is provided with a first anti-slip part, the first anti-slip part at least comprises a first tooth body, the inner wall of the cleaning part is provided with a second anti-slip part, the second anti-slip part at least comprises a groove body second tooth body, and the first tooth body and the second tooth body are in meshed transmission. The cleaning assembly of the present disclosure can solve the problem that the cleaning effect is affected due to the slipping of the rag.

Inventors

  • HUANG SHENGQIANG
  • TANG HUAIYI
  • CHENG GUANGKUN
  • ZHAO XIAOFENG

Assignees

  • 麦悦未来智能科技(苏州)有限公司

Dates

Publication Date
20260508
Application Date
20250516

Claims (13)

  1. 1. A cleaning assembly (100), comprising: A drive shaft (110); The driven shaft (120) is arranged side by side with the driving shaft (110) along the radial direction (Y) of the driving shaft (110), and the driving shaft (110) is used for driving the driven shaft (120) to synchronously operate; A cleaning member (130), wherein the cleaning member (130) is arranged around part of the driving shaft (110) and part of the driven shaft (120), the cleaning member (130) comprises an inner wall (130 a) and an outer wall (130 b), the inner wall (130 a) is connected with the driving shaft (110) and the driven shaft (120), and the outer wall (130 b) is used for cleaning the ground; The cleaning device comprises a driving shaft (110), and is characterized in that a first anti-slip part is arranged on the driving shaft (110), the first anti-slip part at least comprises a first tooth body (111), a second anti-slip part is arranged on the inner wall (130 a) of the cleaning component (130), the second anti-slip part at least comprises a second tooth body (131), and the first tooth body (111) and the second tooth body (131) are meshed for transmission.
  2. 2. The cleaning assembly (100) of claim 1, wherein the first teeth (111) extend along an axial direction (X) of the drive shaft (110) and along a circumferential direction of the drive shaft (110), the number of first teeth (111) being at least one; The number of the second tooth bodies (131) is greater than or equal to the number of the first tooth bodies (111).
  3. 3. The cleaning assembly (100) of claim 1, wherein the first anti-slip portion further comprises a first soft gel (112), the first soft gel (112) being in contact with the inner wall (130 a) of the cleaning member (130); The first soft colloid (112) is annularly arranged on the periphery of the driving shaft (110) along the circumferential direction of the driving shaft (110); Along the axial direction (X) of the driving shaft (110), at least one side of the first tooth body (111) is provided with the first soft colloid (112).
  4. 4. A cleaning assembly (100) according to claim 3, wherein the top circular diameter of the first tooth (111) is less than or equal to the outer diameter of the first soft gel (112) along the radial direction (Y) of the drive shaft (110).
  5. 5. The cleaning assembly (100) according to claim 1, wherein the first tooth (111) is located in an intermediate region of the drive shaft (110) in an axial direction (X) of the drive shaft (110), and/or, Along the axial direction (X) of the driving shaft (110), the first tooth body (111) is arranged in the area, close to the two side edges, of the driving shaft (110).
  6. 6. The cleaning assembly (100) according to claim 1, wherein a plurality of the second tooth bodies (131) are provided on the inner wall (130 a) of the cleaning member (130) along the circumferential direction of the cleaning member (130), and the plurality of the second tooth bodies (131) are uniformly distributed on the inner wall (130 a); the number of the first tooth bodies (111) is one along the circumferential direction of the driving shaft (110).
  7. 7. The cleaning assembly (100) according to claim 1, wherein a plurality of the second tooth bodies (131) are provided on the inner wall (130 a) of the cleaning member (130) along the circumferential direction of the cleaning member (130), and the plurality of the second tooth bodies (131) are uniformly distributed on the inner wall (130 a); The number of the first tooth bodies (111) is at least two along the circumferential direction of the driving shaft (110).
  8. 8. A cleaning assembly (100) according to claim 3, wherein the drive shaft (110) comprises a first shaft section (113) and a second shaft section (114), the first shaft section (113) and the second shaft section (114) being alternately arranged along the axial direction (X) of the drive shaft (110), the first shaft section (113) being for arranging the first tooth (111), the second shaft section (114) being for arranging the first soft gel (112); The diameter of the first shaft section (113) is smaller than the diameter of the second shaft section (114).
  9. 9. The cleaning assembly (100) according to claim 1, wherein a third anti-slip part is arranged on the driven shaft (120), the third anti-slip part at least comprises a third tooth body (121), and the third tooth body (121) and the second tooth body (131) are meshed for transmission.
  10. 10. The cleaning assembly (100) of claim 9, wherein the third teeth (121) extend along an axial direction (X) of the drive shaft (110) and along a circumferential direction of the drive shaft (110), the number of third teeth (121) being at least one.
  11. 11. The cleaning assembly (100) of claim 9, wherein at least one of the first tooth (111) and the third tooth (121) is in meshed transmission with the second tooth (131) during synchronous operation of the driven shaft (120) by the driving shaft (110).
  12. 12. The cleaning assembly (100) of claim 10, wherein the third cleat further comprises a second soft gel (122), the second soft gel (122) being connected with the inner wall (130 a) of the cleaning member (130); The second soft colloid (122) is annularly arranged on the periphery of the driven shaft (120) along the circumferential direction of the driving shaft (110); Along the axial direction (X) of the driving shaft (110), at least one side of the third tooth body (121) is provided with the second soft colloid (122).
  13. 13. A cleaning apparatus comprising a cleaning assembly (100) according to any one of claims 1 to 12.

Description

Cleaning assembly and cleaning equipment Technical Field The disclosure relates to the technical field of cleaning equipment, in particular to a cleaning assembly and cleaning equipment. Background The cleaning device is a common intelligent cleaning appliance, such as a sweeping robot, a floor washing machine and the like. The cleaning device can be used for deeply cleaning floors, tiles, carpets and the like on surfaces to be cleaned. The cleaning apparatus includes a cleaning assembly for cleaning a surface to be cleaned. The cleaning assembly may comprise a wipe. The wipe may also be referred to as a mop, or the like. The wipe may be used primarily for dry or wet wiping of the surface to be cleaned. The rag can be divided into a rotary type, a fixed type, a crawler type and the like according to the movement mode. The rag cover of crawler-type rag is located on the axis of rotation. The rag can be driven to roll by the rotation of the rotating shaft so as to wipe the surface to be cleaned. In the related art, the rotation shaft rotates and drives the rag in the motion process, the phenomenon that the rag continuously slips easily occurs, so that the rag cannot roll normally, and the cleaning effect and the cleaning efficiency are affected. Disclosure of utility model The disclosure provides a cleaning assembly and cleaning device, which can solve the problem that the cleaning effect is affected due to the fact that a rag slips. In one aspect, the present disclosure provides a cleaning assembly comprising: A driving shaft; The driven shaft is arranged side by side with the driving shaft along the radial direction of the driving shaft, and the driving shaft is used for driving the driven shaft to synchronously operate; the cleaning component is arranged outside part of the driving shaft and part of the driven shaft in a surrounding manner and comprises an inner wall and an outer wall, the inner wall is connected with the driving shaft and the driven shaft, and the outer wall is used for cleaning the ground; The driving shaft is provided with a first anti-slip part, the first anti-slip part at least comprises a first tooth body, the inner wall of the cleaning part is provided with a second anti-slip part, the second anti-slip part at least comprises a second tooth body, and the first tooth body and the second tooth body are in meshed transmission. The cleaning assembly provided by the disclosure is meshed with the second tooth body on the cleaning part through the first tooth body on the driving shaft, and can be meshed with the second tooth body for transmission in the rotation process of the driving shaft, so that the acting force for rotating the driving shaft is transmitted to the cleaning part, and the cleaning part can be pushed to normally operate on the surface to be cleaned. At this time, the cleaning part and the driving shaft can synchronously run, and the phenomenon of skidding is difficult to occur between the cleaning part and the driving shaft, thereby being beneficial to improving the cleaning effect of the surface to be cleaned. Wherein, the inner wall of clean part is towards driving shaft and driven shaft to be connected with driving shaft and driven shaft through the inner wall. When the driving shaft rotates, the tooth surface of the first tooth body and the tooth surface of the second tooth body can be contacted with each other. The tooth surface of the first tooth body can provide power required for rotation to the tooth surface of the second tooth body so as to drive the cleaning component to operate by the power. Therefore, the meshing of the first tooth body and the second tooth body can transmit motion and power, so that the cleaning part stably operates under the action of the driving shaft and the driven shaft, and the phenomenon that the cleaning part slips can be reduced, thereby influencing the cleaning effect, increasing the abrasion of the cleaning part and the driving shaft and the driven shaft and reducing the possibility of endurance. When the friction force between the cleaning part and the surface to be cleaned is larger, for example, the friction force between the cleaning part and the surface to be cleaned is larger than the friction force between the cleaning part and the driving shaft, the cleaning part can be pushed to normally operate through the mutual engagement of the first tooth body and the second tooth body, so that relative rotation between the cleaning part and the driving shaft is not easy to generate, and the possibility of slipping of the cleaning part is reduced. According to one embodiment of the present disclosure, the first tooth body extends along the axial direction of the driving shaft, and the number of the first tooth bodies is at least one along the circumferential direction of the driving shaft; The number of the second tooth bodies is greater than or equal to that of the first tooth bodies. In the embodiment of the disclosure, when the num