CN214549304U - Cleaning tool set - Google Patents

Abstract

The utility model discloses a cleaning tool set, which comprises a mop barrel and a mop, wherein the mop comprises a mop head with wiping materials and a mop rod movably connected to the upper end of the mop head; a supporting part is arranged in the mop bucket and can be detachably connected with the mop head; the mop barrel is also internally provided with a water pump for conveying water to the direction of the wiping object, and the mop head can drive the water pump to work through the linkage component when rotating; the mop is provided with a rotary driving mechanism for driving the mop head to rotate forwards and backwards; the mop head is connected with the supporting part, and when the rotary driving mechanism drives the mop head to rotate forwards, water in the mop bucket is pumped out by the water pump and is conveyed towards the direction of the wiping object; the mop head is connected with the supporting part, and when the rotating driving mechanism drives the mop head to rotate reversely, the mop head cannot drive the water pump to work; alternatively, the mop head drives the water pump to work but the water pump does not deliver water to the direction of the wipes.

Description

Cleaning tool set

Technical Field

The utility model belongs to the field of cleaning products, concretely relates to supporting mop bucket and mop structure of using.

Background

Chinese patent No. CN211534290U discloses a mop cleaning tool, which comprises a mop and a mop barrel, wherein the mop comprises a mop rod capable of being elongated and shortened and a mop head with a wiping material, the mop head comprises a connecting seat and a mop disc, the mop disc is fixedly arranged on the connecting seat, the connecting seat is rotatably connected to the mop rod, and in the process of shortening the mop rod, the outer rod can drive the inner rod to rotate; the utility model provides a mop cleaning tool, including the mop bucket, the bottom of mop bucket is provided with washs strutting arrangement, and interior bucket middle part is provided with wears the mouth, and the strutting arrangement upper end is passed wear the mouth and expose outside, the mop head can support and lean on strutting arrangement and prevent the mop head to compress tightly the wiper, is provided with drawing liquid mechanism and elevating system in the strutting arrangement, the utility model provides a simple structure and stable, the sanitization.

The scheme of the document is respectively used for cleaning and drying the mop head by arranging the lifting mechanism, but has the problems that the lifting mechanism is controlled by the mop rod which is simultaneously used for driving the mop head to rotate, so that the pulling-up amplitude of the mop rod needs to be kept track of when the mop rod is pulled up after being pressed down in the process of cleaning or drying the mop head, and the lifting mechanism is easy to act when the pulling-up amplitude is too large, so that the state of the lifting mechanism is accidentally switched, and the using effect is not ideal.

The chinese patent CN211299837U, which is to replace the lifting mechanism in the above mentioned document with a mop head, has not only the drawbacks of the above mentioned document, but also the problem that the lifting seat protrudes below the mop head to affect the normal mopping of the mop head.

Chinese patent No. CN207785091U discloses a mop bucket suitable for cleaning and drying a flat mop, which comprises a bucket body; the transmission shaft is buckled with the mop head, is arranged in the barrel body and can rotate around the axis of the transmission shaft, and the transmission shaft is driven to rotate by the rotation of the mop head; the method is characterized in that: the cleaning component is arranged in the barrel body and used for scraping and washing the wiping materials at the bottom of the mop head placed on the transmission shaft; the water pump is arranged in the barrel, the water outlet end of the water pump is connected with a water spray pipe, and a water spray hole of the water spray pipe is aligned with a wiping object placed at the bottom of the mop head on the transmission shaft; and the driving structure is used for driving the water pump to work or not. The mop bucket is a brand-new cleaning mode and is suitable for cleaning and drying a flat mop, the mop bucket can efficiently clean a mop head and save water, and meanwhile, the size of the mop bucket is miniaturized.

The scheme of the document mainly achieves the effect of saving water, and has the defects that the rotating position of the mop head is fixed, the water spraying time and the water spraying amount of the water pump are determined by the capacity of the water storage chamber, the user cannot determine the time for single water spraying cleaning of the mop head, when the mop is dirty and needs to spray water for cleaning twice or even for multiple times, the mop head and the barrel body need to be separated, and the next cleaning is carried out after the water storage chamber is filled with water, so that the using effect is not ideal.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: aiming at the defects existing in the prior art, the cleaning tool set which is simple in structure, convenient to operate, and not easy to break down and can be used for a user to autonomously decide the cleaning and spin-drying time is provided.

In order to realize the purpose of the utility model, the following technical scheme is adopted to realize: a cleaning tool set comprises a mop bucket and a mop; the mop comprises a mop head with wiping materials and a mop rod movably connected to the upper end of the mop head;

a supporting part is arranged in the mop bucket and can be detachably connected with the mop head;

the mop bucket is also internally provided with a water pump for conveying water to the direction of the wiping object, the water pump comprises a water wheel, and the water wheel can be driven to rotate when the mop head rotates;

the water pressure of the water outlet of the water pump when the water wheel rotates forwards is larger than that when the water wheel rotates backwards; or the water outlet of the water pump is positive pressure when the water wheel rotates positively and negative pressure when the water wheel rotates negatively;

the mop is provided with a rotary driving mechanism for driving the mop head to rotate forwards and backwards;

the mop head is connected with the supporting part, and when the rotating driving mechanism drives the mop head to rotate forwards, the water wheel rotates forwards along with the mop head, and the water pump drives water in the mop bucket to be conveyed towards the direction of the wiping object;

the mop head is connected with the supporting part, the rotating driving mechanism drives the mop head to rotate reversely, the water wheel rotates reversely along with the mop head, the water pump drives water in the mop bucket to be conveyed in the direction far away from the wiping object, or the water pump drives the water in the mop bucket to be conveyed in the direction of the wiping object but the water cannot reach the wiping object.

Preferably, the method comprises the following steps: the mop bucket comprises a clear water area and a sewage area, the water pump is arranged in the clear water area, or the water inlet end of the water pump is communicated with the clear water area.

Preferably, the method comprises the following steps: a cover body is arranged above the clean water area in the mop bucket, and the cover body enables water falling from the wiping objects to fall into the sewage area.

Preferably, the method comprises the following steps: the mop bucket is also internally provided with a brush component used for brushing and washing the wiping matters.

Preferably, the method comprises the following steps: the water pump is an axial flow water pump or a centrifugal water pump at least provided with a water wheel;

the axial flow water pump comprises a water wheel shell a and an axial flow water wheel; the water wheel shell a is fixedly connected with the axial flow water wheel; or the water wheel shell a is relatively and fixedly connected with the mop bucket, and the axial flow water wheel is rotatably arranged in the water wheel shell a; or the centrifugal water pump comprises a water wheel shell b and a centrifugal water wheel, wherein the water wheel shell b is fixedly connected with the mop head relatively, and the centrifugal water wheel is rotatably arranged in the water wheel shell b.

Preferably, the method comprises the following steps: the supporting component is rotatably connected with the mop bucket, and the water wheel and the supporting component are coaxially and relatively fixedly connected so as to synchronously rotate;

or the water wheel and the supporting component are respectively connected with the mop barrel in a rotating way, and the water wheel is connected with the supporting component in a transmission way.

When the water wheel and the supporting component are coaxially arranged, the part of the supporting component connected with the water wheel is the linkage component. When the water wheel and the supporting component are arranged non-coaxially, the supporting component is a part of the linkage component, and the water wheel and the supporting component can be in transmission connection through a gear, a transmission belt and the like.

Preferably, the method comprises the following steps: when the water wheel is an axial-flow water wheel, the mop head rotates forwards to drive the supporting component and the axial-flow water wheel to rotate forwards so that water in the mop bucket is pumped out and conveyed towards the direction of a wiping object; when the mop head rotates reversely, the support component and the axial-flow water wheel are driven to rotate reversely, so that water in the water wheel shell flows towards the mop bucket;

when the water wheel is a centrifugal water wheel, the mop head rotates forwards to drive the supporting component and the centrifugal water wheel to rotate forwards so that water in the mop barrel is pumped out and conveyed towards the direction of the wiping object; when the mop head rotates reversely, the supporting component and the centrifugal water wheel are driven to rotate reversely, and the shape of the centrifugal water wheel and/or the water wheel shell enables water flow driven by the centrifugal water wheel not to reach the position of a wiping object.

Preferably, the method comprises the following steps: the water wheel is in one-way transmission connection with the supporting component through a ratchet mechanism, so that when the mop head drives the supporting component to rotate forwards, the water wheel rotates forwards to pump out water in the mop bucket and convey the water to the direction of a wiper; when the mop head drives the supporting part to rotate reversely, the supporting part cannot drive the water wheel to rotate.

Preferably, the method comprises the following steps: under the condition that the supporting component is rotationally connected with the mop barrel, the mop head is kept relatively fixed when being connected with the supporting component; under the condition that the supporting part is fixedly connected with the mop barrel, the mop head is provided with a rotating part which is rotatably connected with the mop head, and the rotating part is relatively fixed when being connected with the supporting part.

Preferably, the method comprises the following steps: the driving mechanism is a motor capable of rotating forwards and reversely, or the driving mechanism is two hand-press type rotating mop rods, and the driving directions of the two hand-press type rotating mop rods are opposite.

Preferably, the method comprises the following steps: when the driving mechanism is a motor, the output shaft of the motor is detachably connected with the mop head or the mop rod through the quick-release part,

the toothbrush further comprises a toothbrush head, and the quick-release part can be detachably connected with the toothbrush head.

Preferably, the method comprises the following steps: the motor is installed in the electric rod body assembly, the electric rod body assembly comprises a motor installation rod, a handle rod and an extension rod connected between the motor installation rod and the handle rod, and a switch used for controlling the motor to start and stop and/or rotate positively and negatively is arranged on the handle rod.

Preferably, the method comprises the following steps: the clean water zone is located in the middle of the mop bucket, the sewage zone is located between the periphery of the clean water zone and the inner wall of the mop bucket, and the clean water zone is provided with at least one external extension zone extending to the inner wall of the mop bucket.

Compared with the prior art, the beneficial effects of the utility model are that: the mop rod is provided with the driving mechanism capable of driving the mop head to rotate forwards and backwards, so that a user can determine the time for cleaning and spin-drying the mop head by spraying water according to needs, the purpose of saving water can be achieved, the mop can be cleaned by spraying water thoroughly once when the mop is dirty, and redundant operation is avoided.

Furthermore, the water wheel of the water pump always rotates along with the mop head, and the mop head is not required to be additionally provided with a switching mechanism to be separated from the transmission state when being dried, or the water wheel is not required to rotate due to the additionally arranged rotation stopping mechanism.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic cross-sectional view of a mop bucket.

Fig. 3 is an exploded view of the mop bucket.

Fig. 4 is a schematic sectional structure view of the axial-flow water pump.

Fig. 5 is an exploded structural schematic view of the axial flow water pump.

Fig. 6 is a schematic structural view of the mop of the present invention.

Fig. 7 is a schematic structural view of the connecting portion of the mop and the supporting member of the present invention.

Fig. 8 is a schematic structural view of a centrifugal water pump.

Fig. 9 is a schematic structural view of a centrifugal water wheel.

FIG. 10 is a schematic cross-sectional view of a mop bucket of example 3.

FIG. 11 is a schematic view showing the structure of the mop, the supporting member and the centrifugal water wheel according to example 3.

Fig. 12 is a schematic view of the structure of the electric brush.

Fig. 13 is an exploded view of the electric brush.

FIG. 14 is a schematic view of the motorized shaft assembly.

1. A mop bucket; 1a, a clear water area; 1b, a sewage area; 11. a handle; 1a1, outer extension; 2. a cover body; 21. a brush assembly; 22. a water baffle; 3. a support member; 31. a unidirectional drive tooth a; 32. an outer convex ring; 33. a circumferential positioning tooth a; 4. a water pump; 41. a water wheel housing; 42. an axial flow water wheel; 43. a draft tube; 44. a water outlet; 45. a driven part a; 49. a driven part b; 5. a mop head; 51. a wipe; 52. an elastic chuck; 53. a circumferential positioning tooth b; 54. a unidirectional drive tooth b; 6. a mop rod; 7. an electric rod body assembly; 71. a motor; 72. a transmission member; 81. a water wheel shell b; 811. a water outlet pipe; 82. a centrifugal water wheel; 821. a connecting pipe; 822. a base plate; 823. a blade; 824. a water inlet; 825. and connecting ribs.

Detailed Description

Example 1

Referring to fig. 1 to 7, the present embodiment is a cleaning tool set comprising a mop bucket 1 and a mop, wherein the mop comprises a mop head 5 with a wiping material 51, and a mop rod 6 movably connected to the upper end of the mop head. The mop is provided with a rotary driving mechanism for driving the mop head to rotate forwards and backwards; the driving mechanism is a motor 71 capable of rotating forwards and reversely, an output shaft of the motor is connected with a transmission piece 72, and the transmission piece 72 can be connected with a mop head or a mop rod.

A supporting part 3 is arranged in the mop bucket and can be detachably connected with a mop head; specifically, an outer convex ring 32 is arranged on the periphery of the supporting part, and an elastic chuck 52 which is matched and clamped with the outer convex ring is arranged in the middle of the mop head. The periphery of the supporting component is provided with circumferential positioning teeth a33, the middle position of the mop head is provided with circumferential positioning teeth b inserted between two adjacent circumferential positioning teeth a, the elastic clamping head is matched with the outer convex ring to ensure that the mop head and the supporting component are kept in a relatively fixed state, and the mop head can be conveniently separated from the supporting component when the mop head is subjected to upward pulling force. The circumferential positioning teeth b are matched with the circumferential positioning teeth a, so that the supporting component can synchronously rotate along with the rotation of the mop head.

A water pump for conveying water to the direction of the wiping objects is further arranged in the mop bucket, and as shown in fig. 2-5, the water pump 4 is an axial-flow water pump which comprises a water wheel shell a41 and an axial-flow water wheel 42; the water wheel shell a is fixedly connected with the axial flow water wheel. Specifically, the axial flow water wheel 42 is more than one axial flow blade, the axial flow blade is designed to be integrally formed with the water wheel housing, and the inner circumference of the water wheel housing a is provided with a guide cylinder 43, so that a water outlet channel is formed between the outer wall of the guide cylinder and the inner wall of the water wheel housing a, the upper end of the guide cylinder is provided with an outer extension part, and an annular water outlet 44 is formed between the outer extension part and the upper port of the water wheel housing a. In other embodiments, the water wheel housing a can be fixedly connected with the mop bucket relatively, and the axial flow water wheel is rotatably arranged in the water wheel housing a, or the axial flow water wheel is integrally formed at the lower part of the outer wall of the guide cylinder.

Further, a vertically arranged rotating shaft 12 made of metal materials is fixedly arranged in the mop bucket, and the supporting component or/and the axial flow water wheel are/is rotatably connected with the rotating shaft. The supporting component is positioned at the upper end of the axial flow water pump and is coaxially and fixedly connected with the guide shell or the water wheel shell a so as to realize synchronous rotation.

In other embodiments, two rotating shafts are vertically arranged in the mop bucket, the axial flow water wheel and the supporting component are respectively and rotatably connected with one rotating shaft, and the axial flow water wheel is in transmission connection with the supporting component.

When the water wheel and the supporting component are coaxially arranged, the part of the supporting component connected with the water wheel is the linkage component. When the water wheel and the supporting component are arranged non-coaxially, the supporting component is a part of the linkage component, and the water wheel and the supporting component can be in transmission connection through a gear, a transmission belt and the like.

The mop bucket comprises a clean water area 1a and a sewage area 1b, and the water pump is arranged in the clean water area. In other embodiments, the water inlet end of the water pump is communicated with the clean water area.

In order to facilitate the water in the mop bucket to be conveniently poured after the mop bucket is used up, the clean water area is arranged in the middle of the mop bucket, the sewage area is arranged between the periphery of the clean water area and the inner wall of the mop bucket, and the clean water area is provided with at least one external extension area 1a1 extending to the inner wall of the mop bucket, so that when the water is poured, the external extension area faces downwards, the sewage in the sewage area and the clean water left in the clean water area can be synchronously poured out and are not easy to splash.

A cover body 2 is arranged above the clean water area in the mop bucket, and the cover body enables water falling from the wiping objects to fall into the sewage area. A brush assembly 21 for scrubbing the wipe is also provided within the mop bucket. In this embodiment, the brush assembly is a soft brush hair disposed on the cover body or a hard brush head or a scraping strip integrally formed on the upper end of the cover body. The brush assembly is adapted to move relative to the wipe as the mop head rotates to brush the dirt from the wipe.

Further, a water baffle 22 is arranged on the cover body corresponding to the outer extension area, and the water baffle 22 is used for preventing sewage falling from the wiper from falling into the clean water area. In addition, an opening 23 is arranged on the cover body corresponding to the water outlet. The water wheel shell penetrates out of the upper part of the cover body, so that the water outlet is positioned above the cover body or is flush with the upper end of the cover body.

When the mop is cleaned, the mop head is connected with the supporting component, when the motor rotates forwards to drive the mop head to rotate forwards, the mop head drives the supporting component and the coaxial water flow wheel to rotate forwards so that water in the mop bucket is pumped out and conveyed towards the direction of the wiping object, the water flow is sprayed onto the wiping object and is adsorbed by the wiping object, and the dirt on the wiping object and the water are brushed downwards to be separated from the wiping object by matching with the relative movement of the brush component and the wiping object. When the motor rotates reversely, the mop head is driven to rotate reversely to drive the supporting component and the axial-flow water wheel to rotate reversely, so that water in the water wheel shell flows towards the mop barrel, namely, water flow cannot flow to the wiper when the axial-flow water wheel rotates reversely, and the wiper can rotate at high speed under the drive of the motor to spin.

It should be noted that the forward rotation and the reverse rotation are relative, the forward rotation can be clockwise or counterclockwise, and the corresponding reverse rotation refers to counterclockwise and clockwise rotation.

In addition, the motor can be a direct current brush motor, the input current direction of the motor can be directly controlled by controlling the forward and reverse rotation of the motor through a 3-gear 2-way switch, and the input current direction of the motor can also be controlled by using an existing controller. These are conventional techniques commonly used in the art and will not be described in detail herein.

In other embodiments, the driving mechanism is two hand-press type rotating mop rods, and the driving directions of the two hand-press type rotating mop rods are opposite. The hand-press type rotary mop rod is the prior art, documents in the background art all adopt the mop rod, and in order to enable the driving directions of the two hand-press type rotary mop rods to be opposite, only the spiral direction of the spiral guide rail or the guide rod is required to be changed.

Example 2

As shown in fig. 8 and 9, the present embodiment is different from embodiment 1 in that: the water pump is replaced by a centrifugal water pump which comprises a water wheel shell b81 and a centrifugal water wheel 82, wherein the water wheel shell b is relatively and fixedly connected with the mop head, and the centrifugal water wheel is rotatably arranged in the water wheel shell b. Specifically, the side wall of the water wheel shell b is connected with a water outlet pipe, the water outlet pipe extends to the upper end of the cover body, or a water spray nozzle connected with the water outlet pipe is arranged on the cover body.

The water wheel housing b is open at a lower end thereof, and the centrifugal water wheel includes a connection pipe 821, a base plate 822 connected to an outer circumference of a lower end of the connection pipe through a connection rib 825, and a plurality of blades 823 connected to an upper end of the base plate in a circumferential array manner, and a water inlet 824 is formed between an inner circumference of the base plate and an outer circumference of the connection pipe.

When the mop head rotates forwards, the supporting component and the centrifugal water wheel are driven to rotate forwards, so that water in the mop bucket is pumped out and conveyed towards the direction of the wiping object; when the mop head rotates reversely, the supporting component and the centrifugal water wheel are driven to rotate reversely, and the shape of the centrifugal water wheel and/or the water wheel shell enables water flow driven by the centrifugal water wheel not to reach the position of a wiping object.

Specifically, because the outlet pipe is located the clockwise tangential direction of water wheel casing b lateral wall, do benefit to rivers and flow along the outlet pipe when centrifugation water wheels rotate clockwise like this, water pressure when centrifugation water wheels anticlockwise rotation in the outlet pipe is showing and is being less than the water pressure when it rotates clockwise. In addition, the blades of the centrifugal water wheel are designed into an arc shape, so that the water pressure difference value in the water outlet pipe when the centrifugal water wheel rotates clockwise and anticlockwise is increased, and the difference value is just enough for ensuring that the centrifugal water wheel cannot reach the position of a wiper at the set rotating speed of the motor.

Examples 1 and 2 are the case when the mop head drives the water pump to work but the water pump does not deliver water to the direction of the wipe.

Example 3

As shown in fig. 10 and fig. 11, the present embodiment is different from the previous embodiments in that: the mop head is connected with the supporting part, and when the rotary driving mechanism drives the mop head to rotate reversely, the mop head cannot drive the water pump to work. In particular, the method comprises the following steps of,

the supporting part is rotatably or fixedly connected with a rotating shaft 12 in the mop bucket, and the supporting part is not provided with circumferential positioning teeth a. The water wheel is rotationally connected with the mop bucket or the supporting part; the mop head is in transmission connection with the water wheel through the ratchet mechanism, so that the water wheel is driven to rotate when the mop head rotates forwards, and the water wheel is not driven to rotate when the mop head rotates backwards. The ratchet mechanism is a unidirectional driving tooth b which is arranged in a circumferential array at the middle position of the lower end of the mop head, and a driven part b49 which is arranged at the upper end of the axial flow water wheel or the centrifugal water wheel. The one-way driving tooth b can be clamped with the driven part b only when the mop head rotates clockwise so as to drive the axial-flow water wheel or the centrifugal water wheel to rotate, the driven part b and the driving tooth b cannot be kept in a relatively fixed state when the mop head rotates anticlockwise, the centrifugal water wheel or the axial-flow water wheel does not rotate or the rotating speed is obviously lower than that of the mop head, and the water pump cannot be in a normal water pumping state.

It should be noted that the positions of the driving teeth b and the driven parts b can be reversed.

Preferably, the lower end of the water wheel can be provided with an elastic pad or a spring, so that the driven part b and the driving tooth b can slide relatively when the mop head rotates anticlockwise.

Example 4

The present embodiment differs from the previous embodiments in that: under the condition that the supporting part is fixedly connected with the mop barrel, the mop head is provided with a rotating part which is rotatably connected with the mop head, and the rotating part is relatively fixed when being connected with the supporting part.

Example 5

Referring to fig. 13 to 14, the driving member is designed to be detachably connected to the mop head or the mop rod, for example, a quick-release member such as a snap or a permanent magnet is used to realize the quick-release connection.

The embodiment also comprises a brush head 9, and the quick-release part can be detachably connected with the brush head 9.

The brush body 9 can be directly connected with the transmission part or can be rotatably connected with a brush base, and a transmission part is arranged in the brush base to connect the brush body with the transmission part.

The motor is installed in the electric rod body assembly, the electric rod body assembly comprises a motor installation rod, a handle rod and an extension rod connected between the motor installation rod and the handle rod, and the extension rod is a fixed rod or a telescopic rod. And a switch for controlling the starting and stopping and/or the forward and reverse rotation of the motor is arranged on the handle rod.

Claims (10)

1. A cleaning tool kit, comprising: comprises a mop bucket and a mop; the mop comprises a mop head with wiping materials and a mop rod movably connected to the upper end of the mop head; a supporting part is arranged in the mop bucket and can be detachably connected with the mop head; the mop bucket is also internally provided with a water pump for conveying water to the direction of the wiping object, the water pump comprises a water wheel, and the water wheel can be driven to rotate when the mop head rotates; the water pressure of the water outlet of the water pump when the water wheel rotates forwards is larger than that when the water wheel rotates backwards; or the water outlet of the water pump is positive pressure when the water wheel rotates positively and negative pressure when the water wheel rotates negatively; the mop is provided with a rotary driving mechanism for driving the mop head to rotate forwards and backwards; the mop head is connected with the supporting part, and when the rotating driving mechanism drives the mop head to rotate forwards, the water wheel rotates forwards along with the mop head, and the water pump drives water in the mop bucket to be conveyed towards the direction of the wiping object; the mop head is connected with the supporting part, the rotating driving mechanism drives the mop head to rotate reversely, the water wheel rotates reversely along with the mop head, the water pump drives water in the mop bucket to be conveyed in the direction far away from the wiping object, or the water pump drives the water in the mop bucket to be conveyed in the direction of the wiping object but the water cannot reach the wiping object.

2. The cleaning implement set of claim 1, wherein: the mop bucket comprises a clear water area and a sewage area, the water pump is arranged in the clear water area, or the water inlet end of the water pump is communicated with the clear water area.

3. A cleaning tool set according to claim 2, wherein: a cover body is arranged above the clean water area in the mop bucket, and the cover body enables water falling from the wiping objects to fall into the sewage area.

4. A cleaning tool set according to claim 2 or 3, wherein: the mop bucket is also internally provided with a brush component used for brushing and washing the wiping matters.

5. The cleaning implement set of claim 1, wherein: the water pump is an axial flow water pump or a centrifugal water pump at least provided with a water wheel; the axial flow water pump comprises a water wheel shell a and an axial flow water wheel; the water wheel shell a is fixedly connected with the axial flow water wheel; or the water wheel shell a is relatively and fixedly connected with the mop bucket, and the axial flow water wheel is rotatably arranged in the water wheel shell a; or the centrifugal water pump comprises a water wheel shell b and a centrifugal water wheel, wherein the water wheel shell b is fixedly connected with the mop head relatively, and the centrifugal water wheel is rotatably arranged in the water wheel shell b.

6. The cleaning implement set of claim 5, wherein: the supporting component is rotatably connected with the mop bucket, and the water wheel and the supporting component are coaxially and relatively fixedly connected so as to synchronously rotate; or the water wheel and the supporting component are respectively connected with the mop barrel in a rotating way, and the water wheel is connected with the supporting component in a transmission way.

7. The cleaning implement set of claim 6, wherein: when the water wheel is an axial-flow water wheel, the mop head rotates forwards to drive the supporting component and the axial-flow water wheel to rotate forwards so that water in the mop bucket is pumped out and conveyed towards the direction of a wiping object; when the mop head rotates reversely, the support component and the axial-flow water wheel are driven to rotate reversely, so that water in the water wheel shell flows towards the mop bucket; when the water wheel is a centrifugal water wheel, the mop head rotates forwards to drive the supporting component and the centrifugal water wheel to rotate forwards so that water in the mop barrel is pumped out and conveyed towards the direction of the wiping object; when the mop head rotates reversely, the supporting component and the centrifugal water wheel are driven to rotate reversely, and the shape of the centrifugal water wheel and/or the water wheel shell enables water flow driven by the centrifugal water wheel not to reach the position of a wiping object.

8. The cleaning implement set of claim 5, wherein: the supporting part is rotatably or fixedly connected with the mop bucket, and the water wheel is rotatably connected with the mop bucket or the supporting part; the mop head is in transmission connection with the water wheel through the ratchet mechanism, so that the water wheel is driven to rotate when the mop head rotates forwards, and the water wheel is not driven to rotate when the mop head rotates backwards.

9. The cleaning implement set of claim 8, wherein: under the condition that the supporting component is rotationally connected with the mop barrel, the mop head is kept relatively fixed when being connected with the supporting component; under the condition that the supporting part is fixedly connected with the mop barrel, the mop head is provided with a rotating part which is rotatably connected with the mop head, and the rotating part is relatively fixed when being connected with the supporting part.

10. The cleaning implement set of claim 8, wherein: the driving mechanism is a motor capable of rotating forwards and reversely, or the driving mechanism is two hand-press type rotating mop rods, and the driving directions of the two hand-press type rotating mop rods are opposite.

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