CN212165739U - Cleaning tool kit - Google Patents

Abstract

The utility model discloses a cleaning tool kit, which comprises a flat mop and a barrel body; the flat mop comprises a mop plate and a mop rod which is rotatably connected to the mop plate; the mop plate is provided with a wiping object; the mop rod is connected with a water squeezing device in a sliding mode. And a sucking disc which can be tightly sucked with the water squeezing device is arranged at a position, close to the barrel opening, on the barrel body. When the pulling force of the mop rod is pulled up to exceed the maximum suction force of the sucker, the mouth part is separated from the wringing device; or when the flat mop is pushed to rotate by taking the position of the sucker or the position, close to the sucker, on the mouth part as a fulcrum, the sucker is separated from the mouth part or the sucker is separated from the water squeezing device. The water squeezing device is tightly sucked on the barrel body through the sucking disc, so that the production is convenient, and the cost is saved.

Description

Cleaning tool kit

Technical Field

The utility model belongs to the technical field of the mop, concretely relates to burnisher external member.

Background

Chinese patent document No. CN110269552A discloses a self-squeezing washing device, which comprises a mop barrel and a flat mop, wherein the flat mop comprises a mop rod and a flat mop head movably connected to the mop rod, a wiping object is arranged on the flat mop head, the mop rod is slidably connected with a squeezing mechanism, the squeezing mechanism comprises a sliding sleeve slidably connected to the mop rod and a squeezing frame arranged at one end of the sliding sleeve close to the flat mop head, the flat mop head can penetrate into the squeezing frame to squeeze the squeezing frame when rotating to a squeezing state, a clamping frame used for clamping the squeezing frame is arranged at the barrel mouth part of the mop barrel, at least one clamping port is arranged on the clamping frame, the clamping port is provided with a limiting structure used for limiting the up-and-down displacement of the squeezing frame and a driving mechanism used for driving the squeezing frame to enter the limiting structure, the limiting structure arranged on the clamping frame is matched with the squeezing frame, can swiftly joint, easily shirk, user operation experience feels good.

In the above-mentioned patent, need limit structure and actuating mechanism to mutually support and just can fix crowded water frame, wherein have a plurality of parts and corresponding structure, increased the processing degree of difficulty, also increased the assembly degree of difficulty.

Disclosure of Invention

The utility model discloses the technical problem that will solve is: aiming at the defects in the prior art, the cleaning tool kit which is simple in structure and easy to assemble is provided.

In order to realize the purpose of the utility model, the following technical scheme is adopted to realize: a cleaning tool kit comprises a flat mop and a barrel body; the flat mop comprises a mop plate and a mop rod which is rotatably connected to the mop plate; the mop plate is provided with a wiping object; the mop rod is connected with a water squeezing device in a sliding way, and the water squeezing device is provided with a squeezing port for cleaning and squeezing out the wiping objects.

The position on the barrel body close to the barrel opening is an opening part, and the opening part is detachably connected with the water squeezing device through a sucker.

When the flat mop is cleaned and/or squeezed, the mop plate is rotated to a cleaning and/or squeezing state relative to the mop rod.

And the flat mop is pressed downwards relative to the barrel body, so that the mouth part and the water squeezing device are tightly sucked through the sucking disc, and the water squeezing device is fixed on the barrel body.

And the sucker can keep the mouth part and the water squeezing device in a fixed state by pulling up the mop rod of the flat mop.

When the pulling force of the mop rod is pulled up to exceed the maximum suction force of the sucker, the mouth part is separated from the wringing device; or when the flat mop is pushed to rotate by taking the position of the sucker or the position, close to the sucker, on the mouth part as a fulcrum, the sucker is separated from the mouth part or the sucker is separated from the water squeezing device.

As an optimization scheme: a positioning seat is arranged at the opening part of the barrel body; at least one wringing device positioning groove for accommodating the wringing device is formed in the positioning seat.

The sucker is arranged on the positioning seat, and the wringing device is provided with a sucker fitting surface a which can be tightly sucked with the sucker.

Alternatively, the first and second electrodes may be,

the sucker is arranged on the wringing device, and the positioning seat is provided with a sucker fitting surface b which can be tightly sucked with the sucker.

As an optimization scheme: the width of the positioning groove of the wringing device is larger than that of the wringing device, so that the wringing device can rotate relative to the position of the suction disc or the position close to the suction disc relative to the positioning groove of the wringing device; and a pushing part for driving the wringing device to move towards the direction of the sucker is arranged in the wringing device positioning groove.

As an optimization scheme: when the wringing device moves towards the bottom of the wringing device positioning groove, the wringing device moves towards the sucker under the guidance of the pushing part, and the pushing part comprises at least one of the following characteristics:

the pushing part is a pushing wall which is formed in the positioning groove of the wringing device and is located far away from the position of the sucker, and the pushing wall is obliquely arranged.

The pushing part is made of a material capable of deforming.

The promotion portion is sliding connection and just keeps away from the promotion piece of sucking disc one side in the wringing device constant head tank, is equipped with the drive between wringing device constant head tank and the promotion piece and promotes the spring that the piece removed to the sucking disc direction, and when the wringing device removed to the bottom in the wringing device constant head tank, the promotion piece drove the wringing device and removed to the sucking disc direction under the effect of spring.

The pushing part is a pushing frame which is connected below the positioning seat in a sliding manner; the lower end of the pushing frame is provided with a floater extending below the liquid level in the barrel body; when the pushing frame moves upwards under the action of buoyancy, the pushing frame also moves towards the sucker; and the upper end of the pushing frame is provided with a transverse pushing block for pushing the wringing device to move towards the direction of the sucking disc.

As an optimization scheme: and a positioning surface is formed on one side of the positioning groove of the wringing device, which is far away from the pushing part, and the positioning surface is matched with the corresponding position shape of the wringing device, so that when the wringing device is abutted against the positioning surface, the sucker fitting surface a or the sucker fitting surface b can completely cover the sucker.

As an optimization scheme: the number of sucking discs is two at least, the sucking discs set up in pairs, and mated sucking discs symmetric distribution in the both sides of mop pole.

As an optimization scheme: the inclination of the sucker is not less than 10 degrees.

As an optimization scheme: the wringing device comprises a wringing box, a sliding sleeve arranged at the upper end of the wringing box and connected with the mop rod in a sliding manner, and a wiping frame which is arranged in the wringing box and can extrude the wiping object; the sucking disc can be tightly sucked with the lower end face of the wringing box.

As an optimization scheme: the lower parts of the inner walls of the two sides of the water squeezing box in the width direction of the mop plate are provided with water scraping frame sliding chutes which are obliquely arranged; the water scraping frame is connected in the water scraping frame sliding groove in a sliding mode.

As an optimization scheme: the barrel body is internally provided with a cleaning area and a water squeezing area which are mutually independent.

Two positioning grooves of the wringing device are arranged on the positioning seat; a wringing device locating slot is located above the washing zone and a wringing device locating slot is located above the wringing zone.

A water outlet channel penetrating through the positioning seat is formed in the wringing positioning groove above the wringing area and close to the cleaning area; the outlet of the water outlet channel is positioned above the cleaning area.

A mop plate inserting opening for inserting the mop plate into the barrel body is formed at the bottom in the positioning groove of the water squeezing device.

A water retaining bulge for preventing water squeezed by the wiping matters from entering the socket of the mop plate is formed between the water outlet channel and the socket of the mop plate at the bottom in the water squeezing positioning groove above the water squeezing area.

As an optimization scheme: the sucker is fixedly connected with the wringing device or the positioning seat through clamping or threads.

As an optimization scheme: the sucking disc back center shaping has the joint post, joint post outer wall shaping has annular draw-in groove.

A bayonet a is formed on the wringing device or the positioning seat and comprises an extending opening part which is adjacently arranged and used for extending the clamping column and a clamping opening part which is matched and clamped with the clamping groove.

Alternatively, the first and second electrodes may be,

a clamping column is formed in the center of the back face of the sucking disc, and positioning holes are formed in the clamping column in the radial direction.

A bayonet b for the clamping column to penetrate through is formed on the water squeezing device or the positioning seat, and a bolt penetrates through the positioning hole.

As an optimization scheme: a connecting sleeve is formed in the center of the back of the sucking disc, and the connecting sleeve is connected with the wringing device or the positioning seat through a screw a; and a connecting through hole for the screw a to pass through is formed on the water squeezing device or the positioning seat.

Alternatively, the first and second electrodes may be,

the back of the sucking disc is fixedly connected with a screw b, and a connecting through hole for the screw b to penetrate through is formed in the wringing device or the positioning seat; and one end of the screw b, which is far away from the sucker, is connected with a nut through threads.

Compared with the prior art, the beneficial effects of the utility model are that: before use, water is added into the water storage area in the barrel body.

When the flat mop needs to be cleaned, the mop head is firstly rotated to enable the mop head to be in a state of being capable of penetrating through the squeezing opening, and the flat mop is in a cleaning state or a squeezing state.

And then the wringing box is moved to the upper part of the cleaning area and inserted into a positioning groove of the wringing device above the cleaning area, the wringing box is contacted with the pushing wall, so that the wringing box horizontally moves along the pushing wall in the descending process, and is close to the sucker, finally the side surface of the wringing box is abutted against the positioning surface, and the lower end surface of the wringing box is tightly sucked with the sucker.

Then the mop rod is held, the mop plate is moved up and down, and the wiping materials on the mop plate are wetted by the water in the water storage area.

After the wiping materials are soaked, a user holds the mop rod by hands and rotates the mop rod in the direction far away from the mop plate, the water squeezing box transversely moves by taking the position where the upper end face of the water squeezing box is contacted with the positioning surface as a fulcrum, the suction disc and the lower end face of the water squeezing box are staggered, air enters the suction disc, the suction disc and the lower end face of the water squeezing box are separated from each other, then the user upwards lifts the flat mop, takes the flat mop out of the cleaning area and moves to the position above the water squeezing area.

Alternatively, the first and second electrodes may be,

the user lifts the flat mop upwards with force, so that the force of the user on the flat mop is greater than the maximum suction force between the water squeezing box and the sucker, and the flat mop is separated from the positioning seat.

After the flat mop moves above the water squeezing area, a user moves the flat mop downwards to enable the water squeezing box and the suckers corresponding to the water squeezing area to be tightly sucked with each other, then the mop plate moves up and down, the wiping objects are squeezed under the squeezing of the water scraping frame, most of squeezed water flows into the cleaning area through the water outlet channel, and less of the squeezed water flows into the water squeezing area; in the process, the mop plate moves to abut against the lower positioning part and cannot continuously move downwards, and the distance between the mop plate and the bottom in the barrel body is still kept, so that the mop plate cannot be contacted with the water at the bottom in the barrel body.

After the wiping object is squeezed, a user holds the mop rod by hand, rotates the mop rod in the direction away from the mop plate, separates the water squeezing box from the sucker and takes out the flat mop.

The flat mop can be independently used for squeezing water, and the method specifically comprises the following steps: a user holds the mop rod with one hand and holds the sliding sleeve with the other hand, and the sliding sleeve slides repeatedly, so that the wringing box moves back and forth relative to the wiping object, and the wiping frame wrings the wiping object.

The wringing box is tightly sucked on the positioning seat through the sucking disc, and the wringing box is simple in structure and convenient to assemble.

Drawings

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

Fig. 2 is a schematic view of the exploded structure of the barrel body of the present invention.

Fig. 3 is a schematic view of the sectional structure of the positioning seat of the present invention.

Fig. 4 and 5 are schematic structural views of the suction cup of the present invention.

Fig. 6 is an exploded schematic view of the wringing device of the present invention.

Fig. 7 is a schematic sectional view of the lower water squeezing box of the present invention.

Fig. 8 is a schematic sectional view of the flat mop of the present invention.

Fig. 9 is a schematic structural view of the wringing box of the present invention when it is about to be taken out from the positioning groove of the wringing device.

Fig. 10 is a schematic structural view of the positioning seat in embodiment 3 of the present invention.

Fig. 11 is an exploded schematic view of the positioning seat in embodiment 4 of the present invention.

Fig. 12 is a schematic structural view of a wringing device in embodiment 5 of the present invention.

Fig. 13 and 14 are schematic structural views of a suction cup according to embodiment 6 of the present invention.

1. A flat mop;

2. a water squeezing device; 21. an upper squeezing box; 211. a sliding sleeve; 22. a lower squeezing box; 221. a wiper frame chute; 222. a water outlet of the wringing box; 223. an extrusion port; 224. a flow guide wall; 23. a wiper frame;

3. a barrel body; 31. a lower positioning part; 32. a cleaning zone; 33. a water squeezing zone;

4. positioning seats; 41. a positioning groove of the wringing device; 411. positioning the surface; 42. a mop plate socket; 43. a suction cup; 431. extending into the mouth; 433. a clamping column; 434. a card slot; 435. positioning holes; 436. a screw b; 437. connecting sleeves; 432. clamping the opening part; 44. a water outlet channel; 45. the water retaining is convex; 46. a water outlet of the positioning seat; 47. a push frame positioning head; 48. a transverse push block socket; 49. a push wall;

51. a handle; 52. buckling; 6. a pushing block; 7. a pushing frame; 71. a transverse push block; 72. a sliding plate; 721. a push frame chute; 73. a float.

Detailed Description

Example 1

Referring to fig. 1 to 9, a cleaning tool set according to the present embodiment includes a flat mop 1, a barrel 3; the flat mop 1 comprises a mop plate and a mop rod which is rotatably connected to the mop plate; the mop plate is fixedly or detachably connected with a wiping material which can be made of cleaning materials such as mop cloth, collodion and the like and is generally flat-shaped so as to be attached to the flat mop 1 and be convenient for the flat mop to penetrate into the extrusion port 223 for extrusion and cleaning; the mop rod is connected with a wringing device 2 in a sliding way, and the wringing device 2 is provided with an extrusion opening 223 for cleaning and wringing wiping materials.

The position on the barrel body 3 close to the barrel opening is an opening part, and the opening part is detachably connected with the water squeezing device 2 through a sucking disc 43.

When the flat mop 1 is cleaned and/or squeezed, the mop plate is rotated to a cleaning and/or squeezing state relative to the mop rod.

The flat mop 1 is pressed down relative to the barrel body 3, so that the mouth part and the water squeezing device 2 are tightly sucked through the sucking disc 43, and the water squeezing device 2 is fixed on the barrel body 3.

The sucker 43 can keep the mouth part and the wringing device 2 in a fixed state by pulling up the mop rod of the flat mop 1.

When the pulling force when pulling the mop rod up exceeds the maximum suction force of the suction cup 43, the mouth part is separated from the wringing device 2; or, when the flat mop 1 is pushed to rotate by taking the position of the suction cup 43 or the position on the mouth part close to the suction cup 43 as a fulcrum, the suction cup 43 is separated from the mouth part, or the suction cup 43 is separated from the water squeezing device 2.

A positioning seat 4 is arranged at the opening part of the barrel body 3; at least one wringing device positioning groove 41 for accommodating the wringing device 2 is formed on the positioning seat 4.

The sucking disc 43 is fixed on the positioning seat 4, specifically, the sucking disc 43 is fixedly connected to the inner bottom of the positioning groove 41 of the wringing device, and the wringing device 2 is provided with a matching surface a of the sucking disc 43 which can be tightly sucked with the sucking disc 43.

A handle 51 is rotatably connected to the positioning seat 4, so that a user can move the barrel body 3 conveniently; the two sides of the positioning seat 4 are rotatably connected with buckles 52 which are fixedly connected with the barrel body 3 in a clamping manner.

The width of the wringing device positioning groove 41 is larger than that of the wringing device 2, so that the wringing device 2 can rotate relative to the position of the suction disc 43 or relative to the position of the wringing device positioning groove 41 close to the suction disc 43; the wringing device positioning groove 41 is internally provided with a pushing part for driving the wringing device 2 to move towards the sucker 43.

When the wringing device 2 moves toward the bottom of the wringing device positioning slot 41, the wringing device 2 moves toward the suction cup 43 under the guidance of the pushing portion.

The pushing part is a pushing wall 49 which is formed at the bottom in the positioning groove 41 of the wringing device and is positioned far away from the position of the sucking disc 43; the push wall 49 is disposed obliquely.

When the wringer device 2 moves toward the bottom of the wringer device positioning slot 41, the wringer device 2 moves toward the suction cup 43 under the guidance of the push wall 49.

A positioning surface 411 is formed on one side of the wringing device positioning groove 41, which is far away from the pushing part, and the positioning surface 411 is matched with the corresponding position shape of the wringing device 2, so that when the wringing device 2 is abutted against the positioning surface 411, the matching surface a of the sucking disc 43 can completely cover the sucking disc 43.

The number of the sucking discs 43 is at least two, the sucking discs 43 are arranged in pairs, and the paired sucking discs 43 are symmetrically distributed on two sides of the mop rod.

The inclination of the suction cup 43 is not less than 10 °.

The wringing device 2 comprises a wringing box, a sliding sleeve 211 which is arranged at the upper end of the wringing box and is connected with the mop rod in a sliding way, and a wiping frame 23 which is arranged in the wringing box and can extrude the wiping object.

The sucking disc 43 can be tightly sucked with the lower end surface of the wringing box (namely the matching surface a of the sucking disc 43).

The squeezing opening 223 penetrates the squeezing box longitudinally, and the mop plate can penetrate through the squeezing opening 223.

The water squeezing box comprises an upper water squeezing box 21 and a lower water squeezing box 22 fixedly connected to the lower end of the upper water squeezing box 21; the sliding sleeve 211 is arranged at the upper end of the upper squeezing box 21.

As shown in fig. 7, the lower wringing box 22 is formed with a wringing box water outlet 222 opposite the lower end of the side wall of the wipe; the side of the wiper frame 23 opposite to the wiper is formed with a through hole of the wiper frame 23 which enables water squeezed out by the wiper to flow to the water outlet 222 of the water squeezing box.

The part of the bottom in the lower wringing box 22, which is positioned between the squeezing port 223 and the wringing box water outlet 222, is a flow guide wall 224 which inclines towards the direction of the wringing box water outlet 222; the water squeezed out by the wiper flows through the through holes of the wiper frame 23 onto the flow guide wall 224 and flows out through the water outlet 222 of the wringing box under the guidance of the flow guide wall 224.

The water squeezing box is provided with a water scraping frame 23 sliding groove 221 which is obliquely arranged along the lower parts of the inner walls of the two sides of the mop board in the width direction.

The wiper frame 23 is slidably connected in a sliding groove 221 of the wiper frame 23.

The sliding groove 221 of the wiper blade 23 is inclined from top to bottom toward the extrusion opening 223.

When the mop head slides downwards relative to the water squeezing box, the wiping frame 23 moves downwards along the sliding groove 221 of the wiping frame 23 under the action of friction force of the wiping object, the wiping frame 23 moves downwards and moves towards the wiping object, and then the wiping frame and the wiping object are squeezed to squeeze out water in the wiping object.

When the mop head upwards slides relative to the water squeezing box, the water scraping frame 23 upwards moves along the sliding groove 221 of the water scraping frame 23 under the action of friction force of the wiping materials, meanwhile, the water scraping frame 23 also moves towards the direction far away from the wiping materials, and then the water scraping frame 23 is not squeezed with the wiping materials, so that the resistance of the mop head upwards moving is reduced, the upward pulling force generated by the water squeezing box on the suction disc 43 is small when the mop head moves upwards, and the water squeezing box is not separated from the suction disc 43.

The barrel body 3 is internally provided with a cleaning area 32 and a water squeezing area 33 which are mutually independent.

Two wringing device positioning grooves 41 are arranged on the positioning seat 4; a wringer positioning slot 41 is located above the washing zone 32 and a wringer positioning slot 41 is located above the wringing zone 33.

A water outlet channel 44 which penetrates through the positioning seat 4 is formed in the water squeezing device positioning groove 41 which is positioned above the water squeezing area 33 and is close to the cleaning area 32.

The outlet of the outlet channel 44 is located above the washing zone 32.

When the mop plate wrings the wiping materials in the wringing area 33, the water flowing out of the wringing box water outlet 222 on the wringing box flows into the cleaning area 32 through the water outlet channel 44, so that more water is prevented from being in the wringing area 33.

A positioning seat water outlet 46 communicated with the cleaning area 32 is formed in one side, far away from the sucker 43, of the wringing device positioning groove 41 above the cleaning area 32; when the mop plate wets the wipes in the cleaning area 32, water from the wringing box outlet 222 flows through the positioning socket outlet 46 into the cleaning area 32.

A mop plate inserting opening 42 for inserting the mop plate into the barrel body 3 is formed at the bottom in the water squeezing device positioning groove 41.

A water retaining protrusion 45 for preventing water squeezed out by the wiping object from entering the mop plate socket 42 is formed at the bottom of the water squeezing positioning groove above the water squeezing area 33 between the water outlet channel 44 and the mop plate socket 42.

The water retention protrusions 45 can block a portion of the water from flowing through the mop plate socket 42 into the wringing zone 33.

Or a diversion inclined plane inclined towards the direction of the water outlet channel 44 is formed at one side of the mop plate socket 42 close to the water outlet channel 44 at the bottom in the water squeezing device positioning groove 41; part of the water flowing out of the wringing box enters the water outlet channel 44 under the action of the diversion inclined plane, and then the water flowing out of the wringing box is prevented from entering the wringing area 33.

The lower positioning part 31 is formed at the bottom of the barrel 3.

The water squeezing area 33 and the cleaning area 32 are both provided with lower positioning parts 31.

When the mop plate moves to the limit position in the barrel body 3, the lower end of the mop plate is abutted against the upper end of the lower positioning part 31, the upper end of the mop plate is still positioned in the water squeezing box at the moment, and when the mop plate moves in the water squeezing zone 33, the lower positioning part 31 can also prevent the wiping matters from contacting with the water at the bottom in the water squeezing zone 33.

The sucking disc 43 is fixedly connected with the wringing device 2 or the positioning seat 4 through clamping or threads. Sucking disc 43 back center shaping has joint post 433, joint post 433 outer wall shaping has annular draw-in groove 434.

A bayonet a is formed on the wringing device 2 or the positioning seat 4, and the bayonet a comprises an extending inlet part 431 which is adjacently arranged and is used for extending the clamping column 433 into, and a clamping inlet part 432 which is matched and clamped with the clamping groove 434.

Alternatively, the first and second electrodes may be,

the sucking disc 43 back center shaping has joint post 433, be equipped with locating hole 435 on the joint post 433 along radial.

A bayonet b for the clamping column 433 to pass through is formed on the wringing device 2 or the positioning seat 4, and a bolt penetrates through the positioning hole 435.

Before use, water is added into the water storage area in the barrel body 3.

When the flat mop 1 needs to be cleaned, the mop head is rotated first, so that the mop head is in a state of being capable of penetrating through the squeezing opening 223, and the flat mop 1 is in a cleaning state or a squeezing state.

Then, the squeezing box is moved to the upper side of the cleaning area 32 and inserted into the positioning groove 41 of the squeezing device above the cleaning area 32, the squeezing box contacts with the pushing wall 49, so that the squeezing box horizontally moves along the pushing wall 49 in the descending process, and further approaches to the suction cup 43, finally, the side surface of the squeezing box abuts against the positioning surface 411, and the lower end surface of the squeezing box and the suction cup 43 are tightly sucked (as shown in fig. 8).

Then the mop rod is held, the mop plate is moved up and down, and the wiping materials on the mop plate are wetted by the water in the water storage area.

After wetting the wiping material, the user holds the mop rod with the hand and rotates the mop rod in the direction away from the mop plate (as shown in fig. 9, the mop rod is rotated clockwise), at the moment, the squeezing box moves transversely by taking the position where the upper end surface of the squeezing box contacts with the positioning surface 411 as a fulcrum, the suction cups 43 and the lower end surfaces of the squeezing box are staggered, air enters the suction cups 43, the suction cups 43 and the lower end surfaces of the squeezing box are separated from each other, and then the user lifts the flat mop 1 upwards to take the flat mop 1 out of the cleaning area 32 and move the flat mop 1 to the upper side of the squeezing area 33.

Alternatively, the first and second electrodes may be,

the user lifts the flat mop 1 upward with force so that the force of the user on the flat mop 1 is greater than the maximum suction force between the squeezing box and the suction cup 43, thereby separating the flat mop 1 from the positioning stand 4.

After the flat mop 1 moves above the water squeezing area 33, a user moves the flat mop 1 downwards to enable the water squeezing box and the suction cups 43 corresponding to the water squeezing area 33 to be tightly sucked with each other, then the mop plate moves up and down, the wiping objects are squeezed under the squeezing of the water scraping frame 23, most of squeezed water flows into the cleaning area 32 through the water outlet channel 44, and a small part of squeezed water flows into the water squeezing area 33; in the process, the mop plate can not move downwards continuously after moving to abut against the lower positioning part 31, and at the moment, the mop plate is still far away from the bottom in the barrel body 3, so that the mop plate can not contact with the water at the bottom in the barrel body 3.

After squeezing the mop, the user holds the mop rod with his hand and rotates the mop rod in a direction away from the mop plate, the squeezing box is separated from the suction cup 43, and then the flat mop 1 is taken out.

The flat mop 1 can also be used independently for squeezing water, and specifically comprises the following steps: the user holds the mop rod with one hand, holds the sliding sleeve 211 with one hand, and repeatedly slides the sliding sleeve 211, so that the wringing box reciprocates relative to the wiping object, and the wiping frame 23 wrings the wiping object.

The water squeezing box is tightly sucked on the positioning seat 4 through the sucking disc 43, and the structure is simple and convenient to assemble.

Example 2

The present embodiment is different from embodiment 1 in that: the pushing part is made of a material capable of deforming; for example, the pushing portion is an elastic body made of rubber material and fixedly connected to the side of the bottom portion away from the suction cup 43 in the wringing device positioning slot 41.

When the wringing box is inserted into the wringing device positioning groove 41, the wringing box extrudes the elastic body, and then the elastic body generates a reaction force towards the sucker 43 direction on the wringing box, so that the wringing box is abutted against the positioning surface 411, and when the wringing box moves to the bottom in the wringing device positioning groove 41, the sucker 43 and the lower end surface of the wringing box are mutually tightly sucked.

Example 3

As shown in fig. 10, the present embodiment is different from embodiment 1 in that: the pushing part is a pushing block 6 which is connected with the inner wall of the wringing device positioning groove 41 far away from the sucker 43 in a sliding manner, and a spring which is fixedly connected between the wringing device positioning groove 41 and the pushing block 6 and drives the pushing block 6 to move towards the sucker 43.

The upper end of the pushing block 6 is formed with a guide surface which is obliquely arranged.

When the wringing device 2 moves towards the bottom in the wringing device positioning groove 41, the pushing block 6 drives the wringing device 2 to move towards the suction cup 43 under the action of the spring.

Example 4

As shown in fig. 11, the present embodiment is different from embodiment 1 in that: the pushing part is a pushing frame 7 connected below the positioning seat 4 in a sliding manner; the lower end of the pushing frame 7 is provided with a floater 73 which extends to the position below the liquid level in the barrel body 3; when the pushing frame 7 moves upward by the buoyancy, the pushing frame 7 also moves toward the suction cup 43.

Sliding plates 72 are formed at the upper end of the pushing frame 7 along the two sides of the width of the barrel body 3; a pushing frame sliding slot 721 obliquely arranged is formed on the sliding plate 72; a positioning head 47 of the pushing frame 7 is formed on the positioning seat 4 and is connected with the sliding slot 721 of the pushing frame in a sliding manner.

The upper end of the pushing frame 7 is provided with a transverse pushing block 71 for pushing the wringing device 2 to move towards the direction of the suction disc 43; a transverse pushing block 71 inserting opening 48 for inserting the transverse pushing block 71 into the wringing device positioning groove 41 is formed at the bottom in the wringing device positioning groove 41.

The upper end of the transverse pushing block 71 is formed with an inclined guide surface near the suction cup 43.

When the water-saving bucket is used, water is contained in the bucket body 3, and buoyancy is generated on the floater 73 by the water, so that the pushing frame 7 is located at the limit position close to the direction of the suction cup 43.

When putting flat mop 1 into wringing device constant head tank 41, the box of wringing contacts with the spigot surface earlier, the box of wringing will drive to push away frame 7 and remove to keeping away from sucking disc 43 direction after that, this process pushes away frame 7 and overcomes the buoyancy of water and takes place to remove, finally the box of wringing is inhaled tightly each other with sucking disc 43, and push away frame 7 and produce the thrust to sucking disc 43 direction to the box of wringing under the buoyancy of water, and then prevent that the mop board from taking place lateral shifting at the box of wringing of reciprocating in-process, avoid the box of wringing to separate with sucking disc 43.

Example 5

As shown in fig. 12, the present embodiment is different from embodiment 1 in that: the sucker 43 is arranged on the wringing device 2, the positioning seat 4 is provided with a sucker 43 matching surface b which can be tightly sucked with the sucker 43, and the sucker 43 matching surface b is the inner bottom surface of the wringing device positioning groove 41.

When the wringing device 2 abuts against the positioning surface 411, the matching surface b of the suction cup 43 can completely cover the suction cup 43.

Example 6

As shown in fig. 13 to 14, the present embodiment is different from embodiment 1 in that: a connecting sleeve 437 is formed in the center of the back of the sucking disc 43, and the connecting sleeve 437 is connected with the wringing device 2 or the positioning seat 4 through a screw a; and a connecting through hole for the screw a to pass through is formed on the wringing device 2 or the positioning seat 4.

Alternatively, the first and second electrodes may be,

a screw b436 is fixedly connected to the back of the suction cup 43, and a connecting through hole for the screw b436 to pass through is formed on the wringing device 2 or the positioning seat 4; the end of the screw b436 remote from the suction cup 43 is threadedly connected with a nut.

Claims (13)

1. A cleaning tool kit comprises a flat mop and a barrel body; the flat mop comprises a mop plate and a mop rod which is rotatably connected to the mop plate; the mop plate is provided with a wiping object; the mop rod is connected with a water squeezing device in a sliding way, and the water squeezing device is provided with a squeezing port for cleaning and squeezing out the wiping matters; the method is characterized in that:

the position, close to the barrel opening, on the barrel body is an opening part, and the opening part is detachably connected with the water squeezing device through a sucker;

when the flat mop is cleaned and/or squeezed, the mop plate is rotated to a cleaning and/or squeezing state relative to the mop rod,

pressing the flat mop downwards relative to the barrel body to enable the mouth part and the water squeezing device to be tightly sucked through the sucking disc, wherein the water squeezing device is fixed on the barrel body;

the mop rod of the flat mop is pulled upwards, and the sucker can keep the mouth part and the water squeezing device in a fixed state;

when the pulling force of the mop rod is pulled up to exceed the maximum suction force of the sucker, the mouth part is separated from the wringing device; or when the flat mop is pushed to rotate by taking the position of the sucker or the position, close to the sucker, on the mouth part as a fulcrum, the sucker is separated from the mouth part or the sucker is separated from the water squeezing device.

2. A cleaning tool kit according to claim 1, wherein: a positioning seat is arranged at the opening part of the barrel body; the positioning seat is provided with at least one wringing device positioning groove for accommodating a wringing device;

the sucker is arranged on the positioning seat, and a sucker fitting surface a which can be tightly sucked with the sucker is arranged on the wringing device;

alternatively, the first and second electrodes may be,

the sucker is arranged on the wringing device, and the positioning seat is provided with a sucker fitting surface b which can be tightly sucked with the sucker.

3. A cleaning tool kit according to claim 2, wherein: the width of the positioning groove of the wringing device is larger than that of the wringing device, so that the wringing device can rotate relative to the position of the suction disc or the position close to the suction disc relative to the positioning groove of the wringing device; and a pushing part for driving the wringing device to move towards the direction of the sucker is arranged in the wringing device positioning groove.

4. A cleaning tool kit according to claim 3, wherein: when the wringing device moves towards the bottom of the wringing device positioning groove, the wringing device moves towards the sucker under the guidance of the pushing part, and the pushing part comprises at least one of the following characteristics:

the pushing part is a pushing wall which is formed in the positioning groove of the wringing device and is positioned far away from the position of the sucker, and the pushing wall is obliquely arranged;

the pushing part is made of a material capable of deforming;

the pushing part is a pushing block which is connected in the positioning groove of the wringing device in a sliding manner and is far away from one side of the sucker, a spring which drives the pushing block to move towards the direction of the sucker is arranged between the positioning groove of the wringing device and the pushing block, and when the wringing device moves towards the bottom in the positioning groove of the wringing device, the pushing block drives the wringing device to move towards the direction of the sucker under the action of the spring;

the pushing part is a pushing frame which is connected below the positioning seat in a sliding manner; the lower end of the pushing frame is provided with a floater extending below the liquid level in the barrel body; when the pushing frame moves upwards under the action of buoyancy, the pushing frame also moves towards the sucker; and the upper end of the pushing frame is provided with a transverse pushing block for pushing the wringing device to move towards the direction of the sucking disc.

5. A cleaning tool kit according to claim 4, wherein: and a positioning surface is formed on one side of the positioning groove of the wringing device, which is far away from the pushing part, and the positioning surface is matched with the corresponding position shape of the wringing device, so that when the wringing device is abutted against the positioning surface, the sucker fitting surface a or the sucker fitting surface b can completely cover the sucker.

6. A cleaning tool kit according to any one of claims 1 to 5, wherein: the number of sucking discs is two at least, the sucking discs set up in pairs, and mated sucking discs symmetric distribution in the both sides of mop pole.

7. A cleaning tool kit according to claim 6, wherein: the inclination of the sucker is not less than 10 degrees.

8. A cleaning tool kit according to any one of claims 1 to 5 or 7, wherein: the wringing device comprises a wringing box, a sliding sleeve arranged at the upper end of the wringing box and connected with the mop rod in a sliding manner, and a wiping frame which is arranged in the wringing box and can extrude the wiping object; the sucking disc can be tightly sucked with the lower end face of the wringing box.

9. A cleaning tool kit according to claim 8, wherein: the lower parts of the inner walls of the two sides of the water squeezing box in the width direction of the mop plate are provided with water scraping frame sliding chutes which are obliquely arranged; the water scraping frame is connected in the water scraping frame sliding groove in a sliding mode.

10. A cleaning tool kit according to claim 8, wherein: a cleaning area and a water squeezing area which are mutually independent are arranged in the barrel body;

a positioning seat is arranged at the opening part of the barrel body, and two positioning grooves of the wringing device are arranged on the positioning seat; a wringing device positioning slot is positioned above the cleaning zone, and a wringing device positioning slot is positioned above the wringing zone;

a water outlet channel penetrating through the positioning seat is formed in the wringing positioning groove above the wringing area and close to the cleaning area; the outlet of the water outlet channel is positioned above the cleaning area;

a mop plate inserting opening for inserting the mop plate into the barrel body is formed at the bottom in the positioning groove of the water squeezing device;

a water retaining bulge for preventing water squeezed by the wiping matters from entering the socket of the mop plate is formed between the water outlet channel and the socket of the mop plate at the bottom in the water squeezing positioning groove above the water squeezing area.

11. A cleaning tool kit according to claim 2, wherein: the sucker is fixedly connected with the wringing device or the positioning seat through clamping or threads.

12. A cleaning tool kit according to claim 11, wherein: a clamping column is formed in the center of the back face of the sucking disc, and an annular clamping groove is formed in the outer wall of the clamping column;

a bayonet a is formed on the wringing device or the positioning seat, and comprises an extending opening part which is adjacently arranged and is used for the clamping column to extend into and a clamping opening part which is matched and clamped with the clamping groove;

alternatively, the first and second electrodes may be,

a clamping column is formed in the center of the back face of the sucking disc, and positioning holes are formed in the clamping column in the radial direction;

a bayonet b for the clamping column to penetrate through is formed on the water squeezing device or the positioning seat, and a bolt penetrates through the positioning hole.

13. A cleaning tool kit according to claim 11, wherein: a connecting sleeve is formed in the center of the back of the sucking disc, and the connecting sleeve is connected with the wringing device or the positioning seat through a screw a; a connecting through hole for the screw a to pass through is formed in the water squeezing device or the positioning seat;

alternatively, the first and second electrodes may be,

the back of the sucking disc is fixedly connected with a screw b, and a connecting through hole for the screw b to penetrate through is formed in the wringing device or the positioning seat; and one end of the screw b, which is far away from the sucker, is connected with a nut through threads.

Images