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CN-224220090-U - Atomizing mop

CN224220090UCN 224220090 UCN224220090 UCN 224220090UCN-224220090-U

Abstract

The utility model discloses an atomization mop which comprises a mop plate, wherein a mop rod is connected to the back side of the mop plate, an atomization device and a containing cavity for containing liquid are arranged on the mop plate, the atomization device comprises an atomization piece, an opening is arranged on the side wall of the containing cavity, and the atomization piece is positioned in the opening and enables the liquid in the containing cavity to be atomized and discharged by the atomization piece when passing through the opening. The atomizing device of the atomizing mop and the setting mode of the containing cavity enable the atomized water mist sprayed by the atomizing piece not to be influenced by the movement of the mop, meanwhile, the sealing performance of the containing cavity is strong, the retention effect of the atomizing piece is good, and looseness cannot be generated.

Inventors

  • YAO GUOHUI
  • REN JUNSHAN

Assignees

  • 霸州市亮洁家居用品有限公司

Dates

Publication Date
20260512
Application Date
20250512

Claims (20)

  1. 1. The utility model provides an atomizing mop, includes the mop board, is connected with the mop pole at the dorsal part of mop board, its characterized in that be equipped with atomizing device on the mop board and be used for holding the chamber that holds of liquid, atomizing device includes the atomizing piece, the preceding lateral wall that holds the chamber is equipped with the trompil, the atomizing piece is located the trompil and makes to hold the liquid in the chamber and atomize and discharge by the atomizing piece when passing through the trompil.
  2. 2. The atomizing mop of claim 1, wherein the atomizing member comprises an atomizing sheet and a soft rubber ring circumferentially disposed along the rim of the atomizing sheet, the soft rubber ring being in interference fit with the inner wall of the opening.
  3. 3. The atomizing mop according to claim 2, wherein a plug is further provided in the opening, the plug is in interference fit with the opening, a through hole is provided in the middle of the plug, and the liquid in the holding cavity is atomized by the atomizing member and discharged through the through hole.
  4. 4. The atomizing mop of claim 3, wherein the opening is a two-stage stepped bore having two different diameter sections, the major end section of the opening having a diameter greater than the minor end section to form a stepped transition, the minor end section of the opening being in communication with the receiving chamber, and the atomizing member and the plug being inserted in the major end section of the opening.
  5. 5. The atomizing mop of claim 4, wherein the side wall of the large end section of the opening is provided with two limit grooves which are oppositely arranged, the plug is correspondingly provided with limit parts, and the limit parts are inserted into the limit grooves.
  6. 6. The atomizing mop of claim 4, wherein a strip-shaped rib is further arranged on the side wall of the large end section of the opening along the length direction of the opening, a slide way is correspondingly arranged on the plug, and the strip-shaped rib is inserted into the slide way and slides along the strip-shaped rib.
  7. 7. The atomizing mop according to claim 6, wherein the opening, the atomizing piece and the plug are provided in two, the opening is symmetrically arranged in front of the mop plate, a notch is formed in the opening, the notch is arranged below the atomizing piece and is used for enabling the atomizing piece socket to pass through and be connected to a power supply, and a liquid adding part is arranged at the top of the accommodating cavity.
  8. 8. The atomizing mop according to any one of claims 1 to 7, wherein the mop plate includes a top cover and a U-shaped member, the receiving chamber is provided on the U-shaped member, a covering portion is provided on the U-shaped member, a first top cover mounting groove is provided on the top cover, the U-shaped member is fitted to the first top cover mounting groove and is inserted into the first top cover mounting groove, and the atomizing device is provided between the top cover and the covering portion.
  9. 9. The atomizing mop of claim 8, wherein the atomizing device further comprises a circuit board, a battery and an atomizing switch, the battery is electrically connected to the circuit board, the circuit board is electrically connected to the atomizing switch and the atomizing piece, the atomizing switch is disposed on the mop head or the mop rod, and the atomizing device is turned on or off by the atomizing switch.
  10. 10. The atomizing mop according to any one of claims 1 to 7, wherein the mop plate comprises a top cover, the mop plate and the mop rod are connected through a connecting component, the connecting component comprises a first connecting piece, a steering block and a second connecting piece, a first through hole is formed in the middle of the top cover, the first connecting piece comprises a base and a mounting column connected to the middle of the base, the mounting column penetrates through the first through hole from the lower portion of the top cover, the base is clamped below the top cover to achieve connection of the first connecting piece and the top cover, a first auricle seat is arranged at the top of the mounting column, two first auricle seats are arranged at the first auricle seat and are arranged along the length direction of the mop plate, first protruding columns are correspondingly arranged at two sides of the steering block, the first protruding columns are inserted into the first auricle seats and can rotate in the first auricle seats, a second through hole is formed in the center of the steering block and perpendicular to the straight line where the two first protruding columns are located, a second auricle seat is arranged at one end of the second connecting piece, two second auricle seats are arranged at the second auricle seat, and two second auricle seats are arranged between two second auricle seats and are connected through two second auricle seats.
  11. 11. The atomizing mop according to claim 10, wherein the steering block has a circular cross section, arc grooves are circumferentially formed in the front and rear sides of the steering block, the circular surfaces of the arc grooves are concentrically arranged with the second through holes, the inner wall of the second auricle seat is provided with convex parts corresponding to the arc grooves, and the convex parts are clamped in the arc grooves to realize left and right steering retention of the second connecting piece.
  12. 12. The atomizing mop according to claim 11, wherein the mop plate comprises a top cover and a bottom cover, clamping frames are movably connected between two sides of the top cover and the bottom cover, limiting plates are arranged between the two clamping frames and the bottom cover, two limiting plate slide ways are symmetrically arranged at two ends of the first connecting piece, two limiting plate slide ways are arranged on each limiting plate, extension lines of one sides of the two limiting plate slide ways, which are close to the center of the bottom cover, can be intersected, protruding shafts are correspondingly arranged on the two clamping frames, and the protruding shafts are inserted into the limiting plate slide ways on the same side to enable the clamping portions to clamp the wiping objects when moving towards the center, and the clamping portions are loosened when moving away from the center of the bottom cover.
  13. 13. The atomizing mop according to claim 12, wherein the limiting plate is provided with an inclined convex part, a clamping frame notch is formed between the two clamping frames, the clamping frame notch is used for the base and the inclined convex part to pass through, the inclined convex part is abutted against the end part of the base after passing through the clamping frame notch, when the first connecting piece is pressed down, the lower part of the base is contacted with the inclined convex part, the limiting plate is extruded by oblique force, so that the limiting plate moves towards the side far away from the first connecting piece, and at the moment, the limiting plate slideway presses inwards on the convex shaft, so that the two clamping frames are driven to move towards the center close to the bottom cover to clamp the wiping object.
  14. 14. The atomizing mop according to claim 13, wherein a first elastic member is disposed between the two clamping frames, a clamping frame mounting groove is disposed at a corresponding position of the two clamping frames, a cross-shaped protrusion is fixedly disposed in the clamping frame mounting groove, the first elastic member is a first spring, and two ends of the first elastic member are respectively sleeved on the peripheries of the two cross-shaped protrusions.
  15. 15. The atomizing mop according to claim 14, wherein a first link mounting groove is provided at a bottom intermediate position of the first link, a second elastic member is inserted into the first link mounting groove and the other end of the second elastic member abuts against the bottom cover, the second elastic member is used to restore the first link to a non-depressed state, so that the oblique force of the bottom of the first link to the limiting plate is canceled, and at this time, the elastic force of the first elastic member moves the two holders away from the center side of the bottom cover, so that the holders release the wiper.
  16. 16. The atomizing mop according to claim 15, wherein a second top cover mounting groove is formed below the top cover, a first connecting piece is inserted into the second top cover mounting groove, a first support plate and a second support plate are arranged in the second top cover mounting groove, the first support plate and the second support plate divide the second top cover mounting groove into top cover receiving grooves on two sides and top cover retention grooves in the middle, the top cover retention grooves are communicated with the first through holes, strip-shaped holes are formed in two side walls of the top cover receiving groove in an opposite mode, a sliding block is arranged in the top cover receiving groove, strip-shaped blocks are correspondingly arranged on two sides of the sliding block, the strip-shaped blocks are inserted into the strip-shaped holes to realize sliding connection of the sliding block in the top cover receiving groove, a gap is formed between the sliding block and the top cover receiving groove, a first connecting piece receiving groove for sliding the sliding block is formed in the first supporting plate or the second supporting plate, a vertical groove for sliding block to move and a transverse groove connected to the top of the vertical groove are formed in the side wall of the first connecting piece, and a first elastic piece receiving groove for sliding block to move is formed in the first connecting piece, and a second elastic piece is arranged between the sliding block and the first connecting piece receiving groove and the first supporting plate or the second supporting plate, and a third elastic piece is arranged on the side of the first connecting piece, and the first elastic piece is arranged in the first connecting piece and the second supporting plate, and the first elastic piece supporting groove and the second elastic piece is in the side and the first elastic piece supporting groove and the top supporting groove and the second elastic piece.
  17. 17. The atomizing mop according to claim 16, wherein a slider pulling part is arranged at the top of the slider, a top cover through hole is correspondingly arranged on the top cover, the slider pulling part penetrates through and protrudes out of the top cover through hole, when the first connecting piece is pressed down, the elastic force of the third spring pushes the slider to move towards the position far away from the center of the top cover, so that the strip-shaped block slides in the transverse groove and is kept at one end of the transverse groove far away from the vertical groove, the side wall of the first connecting piece receiving groove is limited by the strip-shaped block, namely the retention after the first connecting piece is pressed down is achieved, the slider pulling part is pulled towards the center direction of the top cover, the third spring is tightened, the strip-shaped block is located right above the vertical groove, and the second spring drives the first connecting piece to restore to the non-pressed state.
  18. 18. The atomizing mop of any one of claims 12 to 17, wherein the holder is provided with a long hole, the bottom cover is provided with a bottom cover connecting post or a bottom cover connecting groove, the top cover is correspondingly provided with a top cover connecting groove or a top cover connecting post, the top cover connecting post is connected to the bottom cover connecting groove through the long hole, or the bottom cover connecting post is connected to the top cover connecting groove through the long hole.
  19. 19. The atomizing mop of claim 18, wherein the side wall of the clamping frame far away from the center of the bottom cover extends downwards to form a clamping extension plate, a plurality of first clamping teeth facing the center of the bottom cover are uniformly distributed at the lower end of the clamping extension plate, a plurality of second clamping teeth staggered with the first clamping teeth are uniformly distributed at the edges of the two ends of the bottom cover, a third clamping tooth parallel to the first clamping teeth is further arranged at the lower end of the clamping extension plate, and the third clamping tooth is arranged above the first clamping tooth and staggered with the first clamping tooth.
  20. 20. The atomizing mop according to any one of claims 1 to 7, wherein the mop rod comprises a receiving rod, an extension rod and a clamping assembly, the extension rod is connected between the receiving rod and the clamping assembly, the receiving rod is clamped with a second connecting piece, a second connecting piece through hole is formed in the side wall of the second connecting piece, a receiving rod mounting groove is formed in the lower portion of the receiving rod, the receiving rod mounting groove is connected with a clamping block through a spring plate, the clamping block is matched with the second connecting piece through hole, and the clamping block can be clamped in the second connecting piece through hole.

Description

Atomizing mop Technical Field The utility model relates to the technical field of articles for daily use, in particular to an atomization mop. Background The atomizing mop is a tool for cleaning the ground, and the clean water or the cleaning liquid is atomized into tiny water mist particles through the built-in atomizing device and then sprayed out to directly act on the ground, so that the step of frequently soaking the wiping objects is reduced, and the cleaning efficiency is improved. The atomizing device of the existing atomizing mop is arranged below the mop plate, and adopts a mode of vertically spraying downwards, so that the spraying mode has some defects in the actual use process. First, at the moment of spraying, the spray is covered by the wiping object, dirt such as dust and dirt on the ground cannot be fused with the spray, and the cleaning effect is poor. Secondly, the bottom spray is blocked by moving wipes during use, resulting in uneven moisture distribution, the wipes and floor near the spray become more moist due to direct impact of the spray, while the wipes and floor on the side away from the spray are relatively dry due to the inability to contact the spray. Uneven wetting of the wipe and the floor can affect the floor cleaning effect, wet portions can leave water stains on the floor, causing wet and slippery floor, and drier portions can not effectively adsorb and remove dirt on the floor, resulting in incomplete cleaning. In addition, current atomizing mop realizes the atomizing to holding intracavity liquid through connecting the atomizing piece on the pipeline that the holding chamber (the cavity that is used for holding clear water or washing liquid) of atomizing mop extended, when the installation atomizing piece, realizes in the pipeline through the simple joint with the atomizing piece, lacks effectual fixed and seal structure, leads to the atomizing piece to take place not hard up or shift easily in the use, and then causes the leakage of holding intracavity liquid. Disclosure of utility model The utility model aims to provide an atomization mop, and the atomization device and the accommodating cavity of the atomization mop are arranged in such a way that water mist sprayed by an atomization piece is not influenced by mop movement, and meanwhile, the accommodating cavity is high in tightness, good in retention effect of the atomization piece and free from loosening. In order to achieve the above purpose, the present utility model adopts the following technical scheme: The utility model provides an atomizing mop, includes the mop board, is connected with the mop pole at the dorsal part of mop board be equipped with atomizing device on the mop board and be used for holding the chamber that holds of liquid, atomizing device includes the atomizing piece, the preceding lateral wall that holds the chamber is equipped with the trompil, the atomizing piece is located the trompil and makes to hold the liquid in the chamber and atomize and discharge by the atomizing piece when passing through the trompil. Preferably, the atomizing piece includes the atomizing piece and follows the soft rubber ring of atomizing piece's border circumference setting, soft rubber ring with the inner wall interference fit of trompil. Preferably, a plug is further arranged in the opening, the plug is in interference fit with the opening, a through hole is formed in the middle of the plug, and liquid in the accommodating cavity is discharged through the through hole after being atomized by the atomizing piece. Preferably, the open pore is second grade shoulder hole, has two different diameter sections, the big end section diameter of open pore is greater than little end section diameter and forms the echelonment transition, little end section of open pore communicates with holding the chamber, atomizing spare and shutoff are all inserted and are established at the big end section of open pore. Preferably, the side wall of the large end section of the opening is provided with two limit grooves which are oppositely arranged, the plugging is correspondingly provided with limit parts, and the limit parts are inserted into the limit grooves. Preferably, the side wall of the big end section of the opening is also provided with a strip-shaped rib along the length direction of the opening, the plugging is correspondingly provided with a slide way, and the strip-shaped rib is inserted into the slide way and slides along the strip-shaped rib. Preferably, the two holes, the atomizing piece and the plug are symmetrically arranged in front of the mop plate, a notch is formed in the hole, the notch is arranged below the atomizing piece and used for enabling the atomizing piece socket to penetrate through and be connected to a power supply, and a liquid adding part is arranged at the top of the accommodating cavity. Preferably, the atomization device further comprises a top cover and a U-shaped piece, the accommodating cavi