CN111565614A - Mop cleaning system - Google Patents

Mop cleaning system Download PDF

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Publication number
CN111565614A
CN111565614A CN201880006504.0A CN201880006504A CN111565614A CN 111565614 A CN111565614 A CN 111565614A CN 201880006504 A CN201880006504 A CN 201880006504A CN 111565614 A CN111565614 A CN 111565614A
Authority
CN
China
Prior art keywords
mop
roller
cleaning
water
mop head
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN201880006504.0A
Other languages
Chinese (zh)
Inventor
朱晨辉
张巨鸿
陆凯丰
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Jiaxing Jieshun Tourism Products Co ltd
Original Assignee
Jiaxing Jieshun Tourism Products Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority to CN2017212219076 priority Critical
Priority to CN201721221907 priority
Priority to CN2018100375443 priority
Priority to CN201810037544.3A priority patent/CN108685539A/en
Priority to CN2018101068828 priority
Priority to CN201810107978.6A priority patent/CN108618716A/en
Priority to CN201810106882.8A priority patent/CN108451460A/en
Priority to CN201820186310 priority
Priority to CN2018201857006 priority
Priority to CN201820185700 priority
Priority to CN2018101079786 priority
Priority to CN2018201863100 priority
Priority to CN201820631096.5U priority patent/CN209091235U/en
Priority to CN2018206310965 priority
Application filed by Jiaxing Jieshun Tourism Products Co ltd filed Critical Jiaxing Jieshun Tourism Products Co ltd
Priority to PCT/CN2018/105814 priority patent/WO2019056997A1/en
Publication of CN111565614A publication Critical patent/CN111565614A/en
Pending legal-status Critical Current

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Abstract

The mop cleaning system comprises a cleaning barrel (2) and a mop (1), wherein the mop (1) comprises a mop rod (11) and a mop head (12), the mop rod (11) is connected with the mop head (12), a supporting body (4) for supporting the mop is arranged in the cleaning barrel (2), a roller (3) is arranged in the cleaning barrel (2), and the roller (3) is rotatably arranged by taking the self axial direction (a) as a rotating shaft; when cleaning, the mop head (12) rotates to drive the roller (3) to rotate.

Description

Mop cleaning system Technical Field
The invention relates to a mop cleaning system, and belongs to the technical field of cleaning supplies.
Background
CN203576444U, a mop bucket that utilizes axis lift, includes the staving, still includes center pin and axle sleeve, the center pin sets up the bottom of staving, the center pin is provided with the confession the gliding combination spout from top to bottom of axle sleeve, the outside of axle sleeve has cup jointed the bearing, the overcoat of bearing has connect the dehydration basket, the dehydration basket is provided with the prism that is used for with the mop joint. When the technical scheme is used for cleaning the mop, the mop head rotates to drive water liquid to rotate, the operation is improper, the water liquid in the bucket splashes outwards, the mop head is self-cleaned completely by the waves of the water liquid, the self-cleaning effect is poor, and therefore the cleaning effect is not ideal.
Disclosure of Invention
The invention aims to overcome the defects in the prior art and provide a mop cleaning system with more excellent cleaning effect.
The technical scheme adopted by the invention for solving the problems is as follows: the mop cleaning system comprises a cleaning barrel and a mop, wherein the mop comprises a mop rod and a mop head, the mop rod is connected with the mop head, a supporting body for supporting the mop is arranged in the cleaning barrel, a roller is arranged in the cleaning barrel, and the roller is rotationally arranged by taking the self axial direction as a rotating shaft; when cleaning, the mop head rotates to drive the roller to rotate.
Further, the cleaning machine also comprises a roller mounting rack, wherein the roller mounting rack is arranged on the supporting body and/or the cleaning barrel, and the roller is rotatably connected with the roller mounting rack.
Further, the roller is rotatably connected to the supporting body and/or the cleaning barrel.
Furthermore, the structure that the mop rotates to drive the roller to rotate is that when the mop head is arranged on the support body for cleaning, the mop head touches the roller.
Furthermore, the structure for driving the roller to rotate by the rotation of the mop comprises a transmission mechanism, wherein the transmission mechanism comprises a rotating part and a driven gear fixedly arranged with the roller, one end of the rotating part is provided with a driving gear meshed with the driven gear, and the other end of the rotating part is provided with a connecting part which is circumferentially limited after being connected with the mop head; the rotating piece is rotatably connected with the supporting body.
Furthermore, the supporting body is perpendicular to the bottom of the cleaning barrel, and the axial direction of the roller is perpendicular to the axial direction of the supporting body.
Further, the roller is provided with a water feeding groove.
Furthermore, the mop head comprises a base, an outer shell and a swinging piece, the swinging piece is rotatably connected with the base, the swinging piece is unfolded to drive the outer shell, the outer shell and the base are movably installed relatively, and the mop rod is movably connected with the base.
Furthermore, the shell comprises an upper cover and a bottom plate, a vacant space capable of containing the swinging piece is formed in the upper cover and the bottom plate after the upper cover and the bottom plate are covered, and the swinging piece is arranged in the vacant space.
Furthermore, the upper cover is provided with an opening, the base is arranged in the opening and comprises an upper seat and a lower seat, the upper seat is provided with a notch, the swinging piece moves in the notch and is rotatably connected with the upper seat, and the upper seat is in threaded connection with the lower seat.
Furthermore, the cleaning barrel comprises a water purification area and a sewage area, the roller is arranged in the water purification area, and the roller is arranged in a rotating mode relative to the cleaning barrel by taking the self axial direction as a rotating shaft; when the mop is cleaned, the support body supports the mop, the mop head rotates to drive the mop head to rotate with the roller, the roller rotates to bring the clean water in the clean water area to the mop head, and the sewage after the mop head is cleaned is reserved in the sewage area; when dewatering, the mop head is supported by the support body in the sewage area so as to rotate and dewater.
Furthermore, the cleaning barrel comprises a water purification area and a sewage area, and a baffle for shielding most of the water purification area is arranged above the water purification area; the roller is arranged in the water purification area and is rotationally arranged relative to the cleaning barrel by taking the self axial direction as a rotating shaft; when the mop is cleaned, the support body supports the mop, the mop head rotates to drive the mop head to rotate with the roller, the roller rotates to bring the purified water in the purified water area to the mop head, and the sewage after the mop head is washed is reserved in the sewage area.
The cleaning device further comprises a rotating roller and a water feeding belt, wherein the rotating roller is rotatably arranged relative to the cleaning barrel, and the water feeding belt is sleeved outside the roller and the rotating roller.
Furthermore, a partition board for separating sewage in a sewage area is arranged in the cleaning barrel, an extension line of the partition board is intersected with the roller or the water feeding belt, and the partition board receives sewage from the roller or the water feeding belt.
The mop further comprises a water purifying container, a water outlet led out of the water purifying container and a water valve for controlling the water outlet, wherein the water in the water purifying container is higher than the water outlet, and the water outlet of the water outlet flows to the mop head of the mop.
Compared with the prior art, the invention has the following advantages and effects:
1. when the mop is cleaned, the liquid level in the mop barrel can be below the mop head, the liquid level slightly exceeds the roller, and the roller can drive the water below to the mop head when rotating, so that the mop head is cleaned.
2. The roller and the mop head move relatively when rotating, the mop rod is pressed up and down when the mop cleaning device is used, the mop can be cleaned by the same action, the cleaned sewage cannot be mixed with clean water, the mop can be dewatered after acceleration, and the mop head can be cleaned quickly and effectively.
3. The mop head covers the roller for feeding water, so that when the mop head is cleaned, water can be stably controlled in the barrel and cannot spill out of the barrel body.
4. According to the invention, after the water purification container is arranged, the water discharged from the water purification container flows to the mop head, the mop head can be washed, and after the water discharge is closed, the mop head continues to rotate, so that centrifugal dehydration can be realized.
5. Compared with the prior art, the invention has simple structure and more excellent functions, and the volume of the barrel body is reduced, so the manufacturing cost and the logistics cost are greatly reduced.
Drawings
Fig. 1 is a schematic structural view of the exploded state of the present invention.
Fig. 2 is a schematic structural view of the rotary installation of the roller of the invention.
FIG. 3 is a schematic structural view of another embodiment of the roller rotating installation of the invention.
FIG. 4 is a schematic view of the mop of the present invention rotating to rotate the roller.
FIG. 5 is a schematic view of another embodiment of the mop of the present invention rotating to rotate the roller.
Fig. 6 is a schematic structural view of a transmission structure of the rotary member and the roller shown in fig. 5.
FIG. 7 is a schematic view of the structure of the roll of the present invention.
Fig. 8 is a schematic structural view of the present invention with an additional water purification container.
FIG. 9 is a schematic view of the structure of the sub-area of the washing tub according to the present invention.
Fig. 10 is a schematic structural view of the present invention in a cleaning state.
FIG. 11 is a schematic view of the present invention in a dehydrated state.
FIG. 12 is a schematic view of the structure of the present invention in which the connecting line between the roller and the roller axis is inclined.
Fig. 13 is a schematic structural view showing a disassembled state of the mop according to the present invention.
FIG. 14 is a schematic view of another embodiment of a mop according to the present invention in an exploded configuration.
Fig. 15 is a schematic view showing the structure of the combination of the mop and the roller in the combined state of the present invention.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
As shown in fig. 1-4, the mop cleaning system of the invention comprises a cleaning barrel 2 and a mop 1, wherein the mop 1 comprises a mop rod 11 and a mop head 12, the mop rod 11 is connected with the mop head 12, a supporting body 4 for supporting the mop 1 is arranged in the cleaning barrel 2, a roller 3 is arranged in the cleaning barrel 2, and the roller 3 is rotatably arranged by taking the self axial direction a as a rotating shaft; during cleaning, the mop head 12 rotates to drive the roller 3 to rotate.
The mode that the roller 3 rotates in the cleaning barrel 2 is as follows: one end of a roller 3 is rotatably connected with a support body 4, and the other end of the roller 3 is rotatably connected with the inner wall of a cleaning barrel 2; two ends of the roller 3 are rotatably connected with a roller mounting rack 6; roller mounting bracket 6 is connected with washing bucket 2, and roller mounting bracket 6 includes roller mounting bracket 6 and the bottom fixed connection who washs bucket 2 with being connected of washing bucket 2, and roller mounting bracket 6 is connected with supporter 4 and is supported by roller mounting bracket 6. The mop 1 comprises a manual mop and an electric mop, wherein the mop rods which are mutually sleeved are moved up and down linearly to drive the mop head 12 to rotate, and the electric mop drives the mop head 12 to rotate through a motor.
As shown in fig. 5 and 6, another embodiment of the mop 1 of the present invention, which rotates to drive the roller 3 to rotate, is: the mop cleaning device further comprises a transmission mechanism, the transmission mechanism comprises a rotating part 5 and a driven gear 333 fixedly arranged with the roller 3, one end of the rotating part 5 is provided with a driving gear 51 meshed with the driven gear 333, and the other end of the rotating part 5 is provided with a connecting structure for circumferential limiting after being connected with the mop head 12; the rotating member 5 is rotatably connected with the supporting body 4 in the cleaning barrel 2 through a middle shaft 7.
Preferably, the driven gear 333 and the driving gear 51 are both bevel gears, or one of the driven gear 333 and the driving gear 51 is an end gear and the other is a straight gear. And by adopting gear transmission, the transmission efficiency is higher, and the cleaning effect and efficiency are more outstanding.
When the mop cleaning machine is implemented, the water level of the cleaning barrel 2 can just contact the roller 3, and the roller 3 rotates to bring water liquid to the mop head 12 so as to deeply clean the mop head 12.
The connecting structure comprises a cavity body and a convex body capable of being embedded into the cavity body, wherein the outer diameter of the convex body is non-circular, the inner cavity of the cavity body is also non-circular, and the convex body is circumferentially limited after being embedded into the cavity body. Non-circular configurations include triangular, quadrilateral, hexagonal, and the like.
Preferably, the supporting body 4 is arranged perpendicular to the bottom of the cleaning barrel 2, and the axial direction a of the roller 3 is perpendicular to the axial direction b of the supporting body 4.
As shown in fig. 7, the roller 3 is provided with a water feeding groove 30, and preferably, an included angle α formed by a connecting line c from the midpoint of the opening of the water feeding groove 30 to the bottom of the water feeding groove and a tangent d extending in the rotating direction at the midpoint is acute. Because the opening of the water feeding groove 30 is oriented in the rotation direction, when the roller 3 rotates in the rotation direction, the roller 3 can bring more water to the mop head 12, thereby realizing quick and effective cleaning.
Preferably, the roller 3 is provided with raised points or comb teeth. The protrusions or teeth can effectively remove dirt from the mop head 12.
Preferably, the salient points or the comb teeth are linearly arranged, and the arrangement line of the salient points or the comb teeth is parallel to the axial line a of the roller 3.
Preferably, the driven gear 333 and the driving gear 51 are both bevel gears, or one of the driven gear 333 and the driving gear 51 is an end gear and the other is a straight gear. And by adopting gear transmission, the transmission efficiency is higher, and the cleaning effect and efficiency are more outstanding.
The solution of how the support body 4 is lifted and lowered in the present application is the prior art, and the present invention applies the solution to the present invention to optimize the product design.
As shown in fig. 13 and 14, the mop head 12 of the present invention comprises a base 111, a housing 112, and a swinging member 113, wherein the swinging member 113 is rotatably connected to the base 111, the swinging member 113 is connected to or supports the housing 112, and when the mop head rotates at a high speed, the swinging member 113 is unfolded to drive the housing 112 to ascend.
The housing 112 has a vacant space for accommodating the swinging member 113 therein, the base 111 is disposed in the middle of the housing 112, the housing 112 includes an upper cover 1121, the upper cover 1121 is provided with an opening 11210, the base 111 is disposed in the opening 11210, one end of the swinging member 113 is rotatably connected to the base 111, and the other end of the swinging member 113 is disposed in the vacant space. Because the empty space is low, the height of the empty space is 0.5-2cm, and the radial length of the swinging member 113 is obviously larger than the height of the empty space, the stroke of the swinging member 113 is also limited by the height of the empty space. The enclosure 112 and the base 111 are therefore limited in their movement paths by the swinging member 113, and they are not physically separated from each other after assembly, and are relatively movable. The housing 112 and the base 111 are movably mounted in a manner that the base 111 is relatively expanded at the lower part, a part of the base 111 can pass through the opening 11210 of the upper cover 1121, and the other part cannot pass through the opening 11210 due to the expansion, and the two parts are not separated in physical space but can move relatively.
The mop rod 11 is movably connected with the base 111 through a movable connector. When the user uses the utility model, the user can rotate the utility model at a proper angle.
Referring to fig. 13 and fig. 15, a roller 3 and a support body 4 are arranged in the cleaning barrel 2, one end of the support body 4 is fixedly connected with the barrel bottom, and the roller 3 is rotatably arranged by taking the self axial direction as a rotating shaft; when the mop is cleaned, the water level in the barrel just contacts the roller 3, the mop head 12 is arranged on the support body 4, when the mop head 12 rotates at a low speed, the mop cloth 14 drives the roller 3 to rotate, the roller 3 rotates to drive the water to the mop cloth 14, and meanwhile, the roller 3 and the mop cloth 14 roll relatively, so that the mop cloth 14 can be cleaned effectively; when the mop head 12 rotates rapidly, the swing member 113 drives the housing 112 to move upwards due to centrifugal action, and the mop 14 is adhered below the housing 112, and the mop 14 also moves upwards along with the housing 112, so that the mop 14 is separated from the roller 3, the roller cannot rotate due to no driving of the mop 14, and water cannot be brought to the mop 14, and centrifugal dewatering can be realized due to the separated water surface during high-speed rotation.
The housing 112 includes an upper cover 1121 and a bottom plate 1122, a space for accommodating the swinging member 113 is formed inside the upper cover 1121 and the bottom plate 1122 after the upper cover 1121 and the bottom plate 1122 are closed, and the swinging member 113 is disposed in the space. The oscillating member 113 fills the space between the top cover 1121 and the bottom plate 1122, compressing the height space so that the mop head 12 can be thinner.
The upper cover 1121 is provided with an opening 11210, the base 111 is arranged in the opening 11210, the base 111 comprises an upper seat 1111 and a lower seat 1112, the upper seat 1111 is provided with a notch 11110, the swinging member 113 is movable in the notch 11110 and is rotatably connected with the upper seat 1111, and the upper seat 1111 is in threaded connection with the lower seat 1112. The swinging piece 113 can be installed by screwing the threads of the upper seat 1111 and the lower seat 1112, and the installation is convenient and quick.
The lower seat 1112 is provided with a concave cavity corresponding to the support body 4. The mop head 12 can be quickly matched with the cleaning barrel.
Referring to fig. 13, the present invention further includes a movable connection head, which includes an upper connection head 31, a lower connection head 32, and a cover plate 33, wherein the upper connection head 31 includes a cylinder and a flange extending outward from the cylinder, the upper connection head 31 is rotatably connected to the lower connection head 32, the cover plate 33 is provided with an opening 11210 which obstructs the flange but allows the cylinder to penetrate therethrough, and the cover plate 33 covers the upper connection head 31 on the upper seat 1111.
The empty space is formed by the protrusion of the upper cover 1121, and the empty space is isolated from the empty space. The oscillating piece 113 is thus isolated, while the isolation belt defines its active space, avoiding circumferential rotation.
As shown in FIG. 14, another embodiment of the movable connection between the mop rod 11 and the mop head 12 of the present invention further comprises a universal joint 14, wherein the base 111 and the mop rod 11 are respectively rotatably connected to the universal joint 14, and the axis of the rotatable connection between the base 111 and the universal joint 14 is crossed with the axis of the rotatable connection between the mop rod 11 and the universal joint 14. But at present the mop pole 11 need be vertical when pushing down the top tube to, but the mop pole 11 just hardly drives its rotation in case the slope, and this application sets up behind the universal joint 14, also can drive the rotation of low tube in the incline direction, has increased many facilities for the operation.
In order to improve the cleaning effect of cleaning the mop head, clean water can be used for cleaning each time. As shown in fig. 8, the present invention further comprises a water purifying container 8, a water outlet 80 leading from the water purifying container 8, and a water valve 81 controlling the water outlet 80, wherein the water purifying container 8 is higher than the water outlet 80, and the water from the water outlet 80 flows to the mop head 12 of the mop 1. When the mop head 12 is cleaned, the water valve 81 is opened, and clean water flowing out from the water outlet 80 washes the mop head 12; when the mop is dried, the water valve 81 is closed, and the mop head 12 rotates to realize dehydration.
In order to solve the problem that water liquid centrifugally thrown out when the mop head 12 rotates splashes, the rotating body 13 is covered on the cleaning barrel 2.
As shown in fig. 9, the cleaning bucket 2 of the present invention comprises a clean water area 200 and a sewage area 201, wherein the clean water area 200 contains clean water, and the sewage area 201 collects sewage after the mop 1 is cleaned; the roller 3 is arranged in the water purification area 200, and the roller 3 is rotationally arranged relative to the cleaning barrel by taking the self axial direction as a rotating shaft; when cleaning, the support body 4 supports the mop 1, the mop head 12 rotates to drive the roller 3 to rotate, and the clean water level of the water purification area 200 touches the roller 3. The roller 3 rotates to bring the purified water of the water purification area 200 to the mop head 12, the roller 3 is arranged in the water purification area 200 and is close to the sewage area 201, preferably, the roller 3 is arranged at the boundary of the water purification area 200 and the sewage area 201, and the sewage which washes the mop head 12 flows to the sewage area 201 due to the inertia effect; when dewatering, the mop head 12 is supported by the support body in the sewage area 201 to be dewatered by rotation, and the centrifugally dewatered sewage is collected by the sewage area 201.
Referring to fig. 10 and 11, the washing tub 2 of the present invention includes a water purifying region 200 and a sewage region 201, wherein the water purifying region 200 and the sewage region 201 are normally separated from each other, and a baffle 202 is disposed above the water purifying region 200 to block most of the water purifying region 200; the baffle 202 shields sewage drained from the mop head 12, the roller 3 is arranged in the water purification area 200, and the roller 3 is rotationally arranged relative to the cleaning barrel 2 by taking the self axial direction as a rotating shaft; preferably, the extension of the axis of rotation of the roller 3 intersects the support body 4.
When cleaning, clean water is poured into the clean water area 200, and the surface of water of clean water touches roller 3, support 4 supports mop 1, thereby mop head 12 is rotatory to be driven and is rotated with roller 3, and roller 3 rotates and takes the clean water of clean water area 200 to mop head 12, and sewage throws away because of centrifugal action when mop head 12 is rotatory, has sheltered from the clean water area 200 because of baffle 202, and sewage will flow to sewage area 201, and roller 3 receives the water liquid that its area played when rotating also to flow to sewage area 201 because of inertial action, and consequently the sewage of having washed mop head 12 stays to sewage area 201 to realize washing back clean water and sewage separation.
The cleaning device is characterized by further comprising a rotating roller 24 and a water feeding belt 25, wherein the rotating roller 24 is rotatably arranged relative to the cleaning barrel 2, and the water feeding belt 25 is sleeved outside the roller 3 and the rotating roller 24. The water level in the clean water zone 200 has a depth, and by providing the water-feeding strip 25 as an extension, the bottom strip is directed towards the mop head 12.
Referring to fig. 12, a partition 26 for separating sewage into a sewage area 201 is arranged in the cleaning barrel 2, an extension line of the partition 26 intersects with the roller 3 or the water feeding belt 25, and the partition 26 receives sewage from the roller 3 or the water feeding belt 25. In the above structure, the roller 3 is disposed on the sewage area 201 side of the partition 26, and sewage falling by gravity can also fall on the sewage area 201.
The connecting line of the roller 3 and the axle center of the roller 24 forms an included angle alpha of 20 degrees with the horizontal plane. Water is more efficient at oblique angles than at vertical.
The line between the axes of the roller 3 and the roller 24 forms an included angle alpha of 90 degrees with the horizontal plane. The vertical arrangement can save space.
The above description of the present invention is intended to be illustrative. Various modifications, additions and substitutions for the specific invention described herein will occur to those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (15)

  1. The mop cleaning system is characterized in that a roller is arranged in the cleaning barrel, and the roller is rotationally arranged by taking the self axial direction as a rotating shaft; when cleaning, the mop head rotates to drive the roller to rotate.
  2. The mop cleaning system of claim 1, further characterized by: the cleaning machine further comprises a roller mounting frame, the roller mounting frame is arranged on the supporting body and/or the cleaning barrel, and the roller is rotatably connected with the roller mounting frame.
  3. The mop cleaning system of claim 1, wherein the roller is rotatably coupled to the support body and/or the cleaning bucket.
  4. The mop cleaning system of claim 1, further characterized by: the structure that the mop rotates to drive the roller to rotate is that when the mop head is arranged on the support body for cleaning, the mop head touches the roller.
  5. The mop cleaning system of claim 1, further characterized by: the structure for driving the roller to rotate by the rotation of the mop comprises a transmission mechanism, wherein the transmission mechanism comprises a rotating part and a driven gear fixedly arranged with the roller, one end of the rotating part is provided with a driving gear meshed with the driven gear, and the other end of the rotating part is provided with a connecting structure which is connected with the mop head and then circumferentially limited; the rotating piece is rotatably connected with the supporting body.
  6. The mop cleaning system of claim 1 or 2, further characterized by: the axial direction of the roller is vertical to the axial direction of the supporting body.
  7. The mop cleaning system of claim 1, further characterized by: the roller is provided with a water feeding groove.
  8. The mop cleaning system of claim 1, wherein the mop head includes a base, a housing, and a swinging member, the swinging member being pivotally connected to the base, the swinging member being extendable to move the housing, the housing being movably mounted relative to the base, the mop rod being movably connected to the base.
  9. The system of claim 8, wherein the housing comprises a top cover and a bottom plate, the top cover and the bottom plate having a space therein for receiving the swinging member, the swinging member being disposed in the space.
  10. The mop cleaning system of claim 9, wherein the cover defines an opening, the base is disposed in the opening, the base includes an upper seat and a lower seat, the upper seat defines a slot, the oscillating member is movable in the slot and is rotatably coupled to the upper seat, and the upper seat is threadably coupled to the lower seat.
  11. The system as claimed in claim 2, wherein the cleaning barrel includes a clean water area and a dirty water area, the roller is disposed in the clean water area, and the roller is rotatably disposed with respect to the cleaning barrel with its own axial direction as a rotation axis;
    when the mop is cleaned, the support body supports the mop, the mop head rotates to drive the mop head to rotate with the roller, the roller rotates to bring the clean water in the clean water area to the mop head, and the sewage after the mop head is cleaned is reserved in the sewage area; when dewatering, the mop head is supported by the support body in the sewage area so as to rotate and dewater.
  12. The mop cleaning system of claim 2, wherein the cleaning bucket includes a clean water area and a dirty water area, and a baffle plate is disposed above the clean water area to block most of the clean water area; the roller is arranged in the water purification area and is rotationally arranged relative to the cleaning barrel by taking the self axial direction as a rotating shaft; when the mop is cleaned, the support body supports the mop, the mop head rotates to drive the mop head to rotate with the roller, the roller rotates to bring the purified water in the purified water area to the mop head, and the sewage after the mop head is washed is reserved in the sewage area.
  13. The mop cleaning system of claim 1, further comprising a roller rotatably disposed relative to the cleaning barrel, and a water supply hose disposed around the roller and the roller.
  14. The mop cleaning system of claim 12, wherein the cleaning bucket has a partition therein for separating the waste water into a waste water region, the partition having an extension line intersecting the roller or the hose, the partition receiving the waste water from the roller or the hose.
  15. The mop cleaning system of claim 1 or 2, further characterized by: the mop also comprises a water purifying container, a water outlet led out from the water purifying container and a water valve for controlling the water outlet, wherein the water in the water purifying container is higher than the water outlet, and the water outlet of the water outlet flows to the mop head of the mop.
CN201880006504.0A 2017-09-22 2018-09-14 Mop cleaning system Pending CN111565614A (en)

Priority Applications (15)

Application Number Priority Date Filing Date Title
CN2017212219076 2017-09-22
CN201721221907 2017-09-22
CN2018100375443 2018-01-16
CN201810037544.3A CN108685539A (en) 2017-09-22 2018-01-16 Mop lifts self-cleaning device
CN201810107978.6A CN108618716A (en) 2018-02-02 2018-02-02 Mop lifts self-cleaning device
CN201810106882.8A CN108451460A (en) 2018-02-02 2018-02-02 Mop dirty separation cleaning system only
CN201820186310 2018-02-02
CN2018201857006 2018-02-02
CN201820185700 2018-02-02
CN2018101079786 2018-02-02
CN2018201863100 2018-02-02
CN2018101068828 2018-02-02
CN2018206310965 2018-04-28
CN201820631096.5U CN209091235U (en) 2017-09-22 2018-04-28 Rotary mop cleaning device
PCT/CN2018/105814 WO2019056997A1 (en) 2017-09-22 2018-09-14 Mop cleaning system

Publications (1)

Publication Number Publication Date
CN111565614A true CN111565614A (en) 2020-08-21

Family

ID=72075463

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201880006504.0A Pending CN111565614A (en) 2017-09-22 2018-09-14 Mop cleaning system

Country Status (1)

Country Link
CN (1) CN111565614A (en)

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