CN111084592A - Disposable mop kit - Google Patents

Abstract

The invention discloses a disposable mop kit, which comprises a shell, a bottom plate fixedly connected to the lower end of the shell, a dust removal paper box arranged at the front part of the shell, and a conveying belt capable of driving the dust removal paper to move; the dust removing paper comprises a mop surface and a blank surface; a paper winding frame for winding the dust removal paper is arranged at the rear part in the shell; the blank surface of the dedusting paper wound on the paper winding frame faces outwards; the surface of the paper winding frame, which is contacted with the dust removal paper, is divided into an arc-shaped driving surface and a sharp-angled surface; a reversing table is formed at the rear end of the bottom plate; the dust removing paper enters the shell through the reversing table and is wound on the paper winding frame; the position of the sharp corner surface is abutted against the lower end of the reversing table; when the shell moves forwards, the dust removal paper rubs with the ground to drive the conveying belt and the dust removal paper to move; according to the invention, the rod body is held by hand, the shell is pushed to replace the dust removing paper, and part of dirt can be attached to the blank surface, so that the utilization rate of the dust removing paper is increased.

Description

Disposable mop kit

Technical Field

The invention belongs to the technical field of mops, and particularly relates to a disposable mop kit.

Background

The Chinese patent document with the reference number CN102058358B discloses a convenient dust removal paper mop. It includes handspike, base, handspike and base loose joint, and its special character lies in: the rear end of the base is provided with a paper fixing piece for fixing the dust removing paper, and the base in front of the paper fixing piece is provided with a paper loading device. The dust removal roll paper is directly arranged on the mop base, so that the dust removal roll paper is convenient and quick to use.

When the patent is used, the user is required to squat when the dust removal paper is replaced every time, and the user needs to pull the dust removal paper by hands, so that the use is troublesome, and the hands are easy to get dirty.

After the floor is mopped, a lot of dirt adheres to the surface of the dust removal paper, so that part of the dirt can be separated from the dust removal paper and is retained on the floor, and a user needs to clean the retained dirt for the second time.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: to the not enough of prior art existence, provide and need not the user and squat down at every turn and change the dust removal paper, and can not have the foul to remain at subaerial disposable mop external member.

In order to realize the purpose of the invention, the following technical scheme is adopted for realizing the purpose: a disposable mop kit including a floor mopping assembly; the mopping assembly comprises a shell, a bottom plate fixedly connected to the lower end of the shell, a dust removal paper box arranged in the front of the shell and provided with dust removal paper, and two conveying belts arranged in the shell and respectively located on the left side and the right side of the bottom plate and abutted to the dust removal paper.

The dust removal paper comprises a mopping surface for cleaning the floor and a blank surface opposite to the mopping surface.

The dust removal paper is positioned at the lower end of the bottom plate through the dust removal paper box, and the mopping surface is in contact with the ground.

A paper winding frame which is driven by a conveying belt and used for winding the dust removing paper is arranged at the rear part in the shell; the blank surface of the dust removing paper wound on the paper winding frame faces outwards.

The surface of the paper winding frame, which is contacted with the dust removal paper, is divided into an arc-shaped driving surface and a sharp-angled surface.

A reversing table is formed at the rear end of the bottom plate; the dust removing paper enters the shell through the reversing table and is wound on the paper winding frame.

The position of the sharp corner surface is abutted against the lower end of the reversing table.

When the shell moves forwards, the dust removing paper rubs with the ground to drive the conveying belt and the dust removing paper to move.

The shell is internally provided with a paper fixing component which can fasten the dust removing paper so as to prevent the dust removing paper from moving.

The upper end of the shell is provided with a mopping rod component for driving the paper fixing component to work.

As an optimization scheme: the paper fixing assembly comprises a driving body, a front fixing frame and a rear fixing frame, the driving body is connected to the upper end of the bottom plate in a sliding mode along the front and rear directions of the shell and driven by the mopping rod assembly, the front fixing frame is driven by the driving body and can abut against the side wall of the front end of the shell to clamp the dust removing paper in the front of the conveying belt, and the rear fixing frame is driven by the driving body and can abut against the paper winding frame to clamp the dust removing paper in the.

As an optimization scheme: the paper fixing assembly further comprises two moving blocks fixedly connected with the driving body respectively; a moving block is adjacent to a conveyor belt.

The conveyer belt includes longitudinal sliding connection in the carriage in the casing, cup joint the belt in the carriage periphery.

And one end of each conveying frame, which is close to the center of the shell, is respectively provided with a conveying connecting plate in a forming mode.

A first inclined wall which is obliquely arranged is formed at the lower end of each moving block; the upper end of each conveying connecting plate is provided with a second inclined wall which is abutted against one first inclined wall.

When the moving block moves back and forth, the conveying frame moves up and down.

When the conveying frame is located at the upper limit position, the lower end face of the belt is flush with the lower end face of the bottom plate, and the dust removal paper is clamped tightly by the front fixing frame and the rear fixing frame.

When the conveying frame is located at the lower limit position, the lower end face of the belt is located below the lower end face of the bottom plate, and the front fixing frame and the rear fixing frame are separated from the dust removal paper.

As an optimization scheme: conveying belt through holes for the conveying belts to pass through are formed in the positions, right opposite to the conveying belts, of the two sides of the front end of the shell respectively.

The dust removal paper enters the lower end of the bottom plate through the front end face of the shell.

As an optimization scheme: the paper rolling frame comprises two paper rolling positioning plates fixedly connected to the inner walls of the left side and the right side of the shell respectively, a rotating belt rotating portion arranged between the two paper rolling positioning plates, and a rotating belt sleeved on the periphery of the rotating belt rotating portion and connected with the conveying belt in a transmission mode.

The used dust removing paper is wound around the periphery of the rotating belt.

The upper part of the rotating belt is arc-shaped, and the lower part of the rotating belt is sharp-angled.

And a horizontal spring and a vertical spring which are horizontally arranged are arranged between the rotating part of the rotating belt and one roll paper positioning plate.

The horizontal spring enables the rotating belt to be abutted against the conveying belt at any moment, and the horizontal spring and the longitudinal spring enable the sharp-angled surface of the rotating belt to be abutted against the lower end of the reversing table at any moment.

A reversing bulge is formed at the upper part of one end of the reversing table close to the paper winding frame; one side of the reversing bulge facing the paper roll frame is a circular arc-shaped inwards concave reversing wall.

The dust removing paper on the conveying belt is attached to the paper winding frame through the reversing wall.

As an optimization scheme: the mopping rod assembly comprises a hollow rod body rotatably connected to the center of the upper end of the shell, a sliding rod axially and slidably connected in the rod body, and a button axially and slidably connected to the sliding rod along the radial direction of the rod body and used for driving the sliding rod to axially move on the upper portion of the rod body.

When the rod body is obliquely placed, the sliding rod faces the driving body, and the sliding rod moves towards the shell body to drive the driving body to move towards the front of the shell body.

And a driving body spring for resetting the driving body is arranged between the bottom plate and the driving body.

As an optimization scheme: a positioning seat is formed in the center of the upper end of the bottom plate; and a driving body sliding groove with an opening at the upper end and in sealing sliding connection with the driving body is formed at the front end of the positioning seat.

The lower end of the rod body is formed with a rod body rotating part which is rotatably connected with the shell; the lower end of the rotating part of the rod body is arc-shaped.

The upper end of the positioning seat is arc-shaped, and the upper end of the driving body is arc-shaped.

When the driving body is abutted against the inner side wall of the sliding groove of the driving body, a sealing surface which is in sealing sliding connection with the lower end surface of the rotating part of the rod body is formed on the upper end surface of the driving body and the upper end surface of the positioning seat.

The side wall of the sliding rod is fixedly connected with a piston body which is in sealing sliding connection with the inner wall of the rod body.

And the lower part of the side wall of the rod body is fixedly connected with a water storage tank for storing water.

The spraying holes which are communicated with the water storage tank and can soak the dust removal paper at the lower end of the bottom plate are uniformly formed at the lower end of the bottom plate.

When the body of rod is vertical to be set up, the body of rod lower port is sealed with the positioning seat relatively, and the slide bar moves downwards, and the water in the storage water tank sprays on the dust removal paper through spraying the hole.

When the rod body is obliquely arranged, the lower end opening of the rod body is staggered with the positioning seat, the rod body is communicated with the outside, the sliding rod moves downwards to drive the driving body to move, and water cannot flow out of the water storage tank.

As an optimization scheme: and the rear part of the upper end of the shell is connected with a cutting part which is used for cutting off the dedusting paper wound on the paper winding frame in a sliding mode along the left and right directions of the shell.

And a rear groove for taking out the dust removal paper cut by the cutting part is formed at the rear end of the shell.

Compared with the prior art, the invention has the beneficial effects that: under the action of no external force, the blade spring drives the sliding head and the arrival sheet to be positioned at the upper limit position, and the blade is positioned right above the paper winding frame at the moment.

The user presses the sliding head to make the sliding head located at the lower limit position, the blade contacts with the rotating belt on the paper winding frame at the moment, then the sliding head is moved to cut off the dedusting paper wound on the periphery of the rotating belt, and the cut dedusting paper is taken out from the rear groove.

In an initial state, unused dedusting paper is located at the lower end of the bottom plate, the driving body is located at the limit position in the sliding groove of the driving body, the front fixing frame and the rear fixing frame clamp the dedusting paper at the moment, and the lower end face of the conveying belt is flush with the lower end face of the bottom plate.

When the dust removal paper is clamped by the front fixing frame and the rear fixing frame, the user pushes the pull rod body to drive the shell to move, and the dust removal paper cannot move.

The user can use the invention to mop the floor, and the dry dust removal paper can effectively clean the dirt of the dust and the hair.

When the floor has stains which are difficult to remove by using dry dust removing paper, a user can wet the dust removing paper so as to clean, and the specific operation is as follows:

the user is with the body of rod vertical placing, forms sealed environment between piston body and the positioning seat this moment, and the user presses the button after that, and the piston body moves down for the water in the storage water tank through the inlet tube, spray that the hole is even sprays on dust removal paper, and then makes dust removal paper moist.

When the user finishes cleaning, when the change of dust removal paper, the user places the body of rod slope, body of rod rotation portion and external intercommunication, the storage water tank can not go out water, and the slide bar is just to the driving body, then user's one hand presses down the button, the slide bar moves to body of rod below, the slide bar promotes the driving body, make the driving body move to casing the place ahead, and then preceding mount, back mount all with the separation of dust removal paper, make dust removal paper can remove, and the conveyer belt moves down, the casing is lifted relatively, conveyer belt lower extreme face is less than bottom plate lower extreme face.

Then the other hand of the user holds the rod body and pushes the shell forwards, the dedusting paper and the conveying belt move relative to the shell under the action of friction force between the dedusting paper and the ground, when the dedusting paper moves to the reversing table, the mopping surface of the dedusting paper is abutted against the blank surface, dirt which is not attached to the mopping surface is attached to the blank surface, then the dedusting paper enters the shell through the reversing table, and when the dedusting paper moves to the reversing wall, the dedusting paper is wound on the paper winding frame under the limitation of the reversing wall.

When the user pushes the shell to move for a corresponding distance, new dust removing paper completely moves to the position below the bottom plate, then the user releases the button, the sliding rod moves towards the upper part of the rod body, the driving body moves to the limit position inside the sliding groove of the driving body, and the dust removing device is restored to the initial state so as to be used next time.

The paper rolling frame is arranged, so that the floor mopping surface of the dust removing paper is abutted against the blank surface, dirt which is not attached to the floor mopping surface can be attached to the blank surface while the floor is cleaned by the dust removing paper, a user does not need to clean the residual dirt, and the utilization rate of the dust removing paper is increased due to the use of the blank surface.

According to the invention, the driving body moves, so that the front fixing frame and the rear fixing frame loosen the dust removing paper, the dust removing paper is convenient to replace, and meanwhile, the conveying belt is driven to move downwards, so that the resistance force applied when the dust removing paper is replaced is reduced.

According to the invention, the rod body is in an inclined state or a vertical state, so that the dust removing paper can be replaced or the water can be sprayed.

According to the invention, the dust removal paper can be replaced or the water is discharged from the water storage tank to wet the dust removal paper by pressing the button.

Drawings

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

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

Fig. 3 is a schematic cross-sectional structure of the present invention.

FIG. 4 is a schematic sectional view of the dust-removing paper clamped by the front and rear fixing frames.

Fig. 5 and 6 are schematic structural views of the housing of the present invention.

Fig. 7 and 8 are schematic structural views of the base plate of the present invention.

FIG. 9 is a schematic cross-sectional view of the paper roll stand according to the present invention.

Fig. 10 is a schematic structural view of the carriage of the present invention.

FIG. 11 is an exploded view of the paper fixing assembly of the present invention.

FIG. 12 is a schematic view of the structure of the cutting part of the present invention.

FIG. 13 is an exploded view of the mop rod assembly of the present invention.

FIG. 14 is a cross-sectional structural schematic view of the mopping rod assembly of the present invention.

Fig. 15 is a schematic view of the structure of the lower end surface of the conveyor belt of the invention below the lower end surface of the bottom plate.

Fig. 16 is a schematic sectional view of the vertical placement of the rod body of the present invention.

FIG. 17 is a schematic cross-sectional view of the inclined rod of the present invention.

A. A mopping assembly; 1. a housing; 101. a rear cover; 102. a cutting section; 1021. a sliding head; 1022. a blade; 1023. a blade spring; 11. a rod body rotating seat; 111. a rod body rotating hole; 12. a shell through groove; 13. cutting the groove; 14. a paper box positioning frame; 15. perforating a conveying belt; 16. a front fixing frame jack; 19. a rear groove;

2. a dust removal paper box; 21. dedusting paper;

3. a paper fixing component; 31. a drive body; 312. a drive body connecting rod; 32. a moving block; 321. a first inclined wall; 33. a front fixing frame; 34. a rear fixing frame;

42. a roll stand; 4201. a drive face; 4202. a sharp corner face; 421. a rotating belt; 422. a rotating belt rotating section; 423. a roll paper positioning plate; 424. a longitudinal spring; 425. a horizontal spring;

5. a conveyor belt; 51. a carriage; 511. conveying the connecting plate; 512. a second inclined wall; 513. conveying positioning holes; 52. a belt;

6. a base plate; 60. an outer base plate; 61. positioning seats; 611. a slide bar slot; 612. a driving body chute; 62. a spring plate; 63. a drive body spring; 64. a reversing table; 641. the rear fixing frame penetrates through the groove; 642. a rear fixing frame sliding chute; 643. a reversing wall; 65. spraying holes; 66. a bottom plate fixing column; 67. a longitudinal sliding post; 68. a water inlet pipe;

B. a mopping rod assembly;

7. a rod body; 71. a button chute; 72. a water storage tank; 73. a lever body rotating part; 731. a rod body rotating shaft; 74. a water tank cover; 8. a button; 81. a button spring;

9. a slide bar; 91. a piston body; 92. the sliding rod drives the wall.

Detailed Description

Example 1

Referring to fig. 1 to 17, a disposable mop kit according to the present embodiment includes a floor mopping assembly a; the mopping assembly comprises a shell 1, a bottom plate 6 fixedly connected to the lower end of the shell, a dust removal paper box 2 arranged in the front of the shell and provided with dust removal paper 21, and two conveying belts 5 which are arranged in the shell and are respectively positioned on the left side and the right side of the bottom plate and abut against the dust removal paper.

The lower end of the shell is positioned at the periphery of the bottom plate and is fixedly connected with an outer bottom plate 60; along the left and right directions, a space for placing the conveying belt is formed between the bottom plate and the outer bottom plate; and a space for dust removing paper to pass through is formed between the bottom plate and the outer bottom plate along the front-back direction.

A paper box positioning frame 14 for fixing a dust removal paper box is formed at the front part of the upper end of the shell.

The dust removal paper comprises a mopping surface for cleaning the floor and a blank surface opposite to the mopping surface.

The dust removing paper is positioned at the lower end of the bottom plate through the dust removing paper box, the mopping surface is contacted with the ground, and the dust removing paper bypasses the rear end of the bottom plate and enters the shell.

A paper winding frame 42 driven by a conveying belt and used for winding the dust removal paper is arranged at the rear part in the shell; the blank surface of the dust removing paper wound on the paper winding frame faces outwards.

The surface of the paper winding frame, which is in contact with the dedusting paper, is divided into an arc-shaped driving surface 4201 and a sharp-angled surface 4202.

A reversing table 64 is formed at the rear end of the bottom plate; the dust removing paper enters the shell through the reversing table and is wound on the paper winding frame.

The position of the sharp corner surface is abutted against the lower end of the reversing table.

When the shell moves forwards, the dust removing paper rubs with the ground to drive the conveying belt and the dust removing paper to move.

At the joint position of the reversing table and the sharp-angled surface, dirt which is not attached to the mopping surface of the dust removing paper is attached to the blank surface.

And a paper fixing component 3 which can fasten the dedusting paper and further prevent the dedusting paper from moving is arranged in the shell.

The upper end of the shell is provided with a mopping rod component B for driving the paper fixing component to work.

The paper fixing assembly comprises a driving body 31 which is connected to the upper end of the bottom plate in a sliding mode along the front-back direction of the shell and driven by the mopping rod assembly, a front fixing frame 33 which is driven by the driving body and can abut against the side wall of the front end of the shell to clamp the dust removing paper in the front portion of the conveying belt, and a rear fixing frame 34 which is driven by the driving body and can abut against the paper winding frame to clamp the dust removing paper in the rear portion of the conveying belt.

The paper fixing assembly further comprises two moving blocks 32 fixedly connected with the driving body respectively; a moving block is adjacent to a conveyor belt.

The left and right sides of the driving body are respectively and fixedly connected with driving body connecting rods 312 fixedly connected with the moving blocks.

The conveying belt comprises a conveying frame 51 longitudinally connected in the shell in a sliding mode and a belt 52 sleeved on the periphery of the conveying frame.

And one end of each conveying frame, which is close to the center of the shell, is respectively provided with a conveying connecting plate 511.

A first inclined wall 321 which is obliquely arranged is formed at the lower end of each moving block; the upper end of each conveying connecting plate is provided with a second inclined wall 512 which abuts against one first inclined wall.

When the moving block moves back and forth, the conveying frame moves up and down.

When the carriage was located the top extreme position, the lower terminal surface of belt and the lower terminal surface parallel and level of bottom plate, preceding mount all presss from both sides the dust removal paper with the back mount and tightly, and the belt all contacts with the dust removal paper and will remove dust the paper and support tightly with ground with the bottom plate this moment, and preceding mount will remove dust the paper with the back mount is fixed, and the removal paper can not take place to remove, and the user of being convenient for drags ground.

When the conveying frame is located at the lower limit position, the lower end face of the belt is located below the lower end face of the bottom plate, the front fixing frame and the rear fixing frame are separated from the dedusting paper, the dedusting paper can move, the shell is pushed forwards at the moment, friction between the dedusting paper and the ground prevents the dedusting paper and the belt from moving relative to the ground, the dedusting paper and the belt move relative to the shell, and finally new dedusting paper gradually moves to the position below the bottom plate to replace the dedusting paper; because the lower terminal surface of belt is located the below of the lower terminal surface of bottom plate for dust removal paper only receives the pressure of belt at above-mentioned in-process, makes dust removal paper support tightly between belt and ground, and the bottom plate separates with dust removal paper, and when dust removal paper removed, the bottom plate can not produce the friction to dust removal paper, can not influence the removal of dust removal paper.

A plurality of conveying positioning holes 513 longitudinally penetrating through the conveying connecting plate are formed in the conveying connecting plate; the upper end of the bottom plate is provided with a plurality of longitudinal sliding columns 67 which are respectively connected with the conveying positioning holes in a longitudinal sliding mode, so that the conveying frame can only slide longitudinally.

The upper end of the bottom plate is provided with a plurality of bottom plate fixing columns 66 fixedly connected with the shell.

And conveying belt through holes 15 for the conveying belts to pass through are respectively formed at the positions of the two sides of the front end of the shell, which are right opposite to the conveying belts.

The dust removal paper enters the lower end of the bottom plate through the front end face of the shell.

The dust removal paper positioned on the front end face of the shell can clean tiles and other positions at the lower end of the wall surface.

Front fixing frame jacks 16 are respectively formed at two sides of the front end of the shell; the front fixing frame comprises front connecting rods and front clamping rods, wherein the front connecting rods penetrate through the inserting holes of the fixing frame respectively, and the front clamping rods are fixedly connected between the two front connecting rods.

The dust removal paper passing through the front end of the shell is located between the front end face of the shell and the front clamping rod, and the front clamping rod can be tightly abutted to the front end face of the shell so as to clamp the dust removal paper.

A front connecting rod is fixedly connected to a moving block.

Rear fixing frame penetrating grooves 641 which are arranged along the front and rear directions of the shell are formed in the left side wall and the right side wall of the reversing table respectively; and a rear fixing frame sliding groove 642 communicated with each rear fixing frame penetrating groove is formed in the rear side of the reversing table.

The rear fixing frame comprises rear connecting rods which are respectively connected in the rear fixing frame penetrating grooves in a sliding mode and rear clamping rods which are fixedly connected between the two rear connecting rods.

The rear clamping rod is connected in the rear fixing frame sliding groove in a sliding mode and can abut against the paper winding frame to clamp the dedusting paper.

A rear connecting rod is fixedly connected to a rear moving block.

As shown in fig. 4 and 11, when the driving body moves to the limit position toward the front of the housing, the moving block is located at the limit position in front, so that the front fixing frame is located at the limit position in front, the front fixing frame is separated from the front end surface of the housing, the rear fixing frame is located at the limit position in front, the rear fixing frame is separated from the roll stand, and the conveying frame is located at the limit position below.

When the driving body moves to the limit position towards the rear of the shell, the moving block is located at the rear limit position, so that the front fixing frame is located at the rear limit position, the front fixing frame abuts against the front end face of the shell, the dedusting paper is clamped tightly, the rear fixing frame is located at the rear limit position, the rear fixing frame abuts against the paper rolling frame, the dedusting paper is clamped tightly, and the conveying frame is located at the upper limit position.

The roll paper frame comprises two roll paper positioning plates 423 fixedly connected to the inner walls of the left side and the right side of the shell respectively, a rotating belt rotating part 422 arranged between the two roll paper positioning plates, and a rotating belt 421 rotatably sleeved on the periphery of the rotating belt rotating part and connected with the conveying belt in a transmission manner.

The used dust removing paper is wound around the periphery of the rotating belt.

The upper part of the rotating belt is arc-shaped, and the lower part of the rotating belt is sharp-angled.

A horizontal spring 425 and a vertical spring 424 are horizontally arranged between the rotating part of the rotating belt and one roll paper positioning plate.

The horizontal spring enables the rotating belt to be abutted against the conveying belt at any moment, and the horizontal spring and the longitudinal spring enable the sharp-angled surface of the rotating belt to be abutted against the lower end of the reversing table at any moment.

A reversing bulge is formed at the upper part of one end of the reversing table close to the paper winding frame; one surface of the reversing protrusion facing the paper winding frame is an arc-shaped inward concave reversing wall 643; the diverter wall is adjacent to the drive surface 4201 of the roll stand.

The dust removing paper on the conveying belt is attached to the paper winding frame through the reversing wall.

The conveying belt works, the dedusting paper enters the shell through the reversing table, in the process, the dedusting paper is always attached to the belt of the conveying belt, when the dedusting paper passes through the reversing wall, the dedusting paper is in contact with the reversing wall, the dedusting paper moves along the reversing wall, the reversing wall forces the dedusting paper to be separated from the belt and attached to the rotating belt of the paper winding frame, then the dedusting paper moves along with the rotating belt, and the used dedusting paper is wound on the periphery of the rotating belt.

When the dust removing paper passes through the included angle between the reversing table and the ground, the floor mopping surface of the dust removing paper is abutted against the blank surface of the dust removing paper on the sharp-angle surface, so that dirt which is not attached to the floor mopping surface is attached to the blank surface.

The distance between the rotating belt and the belt is increased along with the gradual winding of the dust removing paper on the rotating belt, the distance between the tip of the sharp-angled surface and the ground is increased, but under the action of the horizontal spring and the longitudinal spring, the rotating belt is in transmission connection with the belt all the time, and the tip of the sharp-angled surface is abutted against the included angle between the reversing table and the ground all the time.

The mopping rod assembly comprises a hollow rod body 7 rotatably connected to the center of the upper end of the shell, a sliding rod 9 axially and slidably connected in the rod body, and a button 8 axially and slidably connected to the sliding rod along the radial direction of the rod body and axially moved by a driving sliding rod on the upper portion of the rod body.

And a button spring 81 for driving the periphery of the rod body of the button box to move is fixedly connected between the button and the rod body.

The upper end of the sliding rod is provided with a sliding rod driving wall 92 which is obliquely arranged; and a button driving wall which is abutted against the sliding rod driving wall and further drives the sliding rod to move longitudinally is formed at one end of the button facing the sliding rod driving wall.

The button is made of a magnetic conductive material, and the upper part of the sliding rod is made of a magnet, so that the sliding rod always abuts against the button when the button moves.

When the user presses the button, the button drives the sliding rod to move towards the lower part of the rod body.

When the user loosens the button, the button resets under the effect of button spring, and the button drives the slide bar and moves to body of rod top simultaneously.

When the rod body is obliquely placed, the sliding rod faces the driving body, and the sliding rod moves towards the shell body to drive the driving body to move towards the front of the shell body.

And a driving body spring 63 for resetting the driving body is arranged between the bottom plate and the driving body.

A spring plate 62 is formed at the upper end of the bottom plate in front of the driving body; the driving body spring is fixedly connected between the driving body and the spring plate.

A positioning seat 61 is formed in the center of the upper end of the bottom plate; a driving body sliding groove 612 which is provided with an opening at the upper end and is connected with the driving body in a sealing and sliding manner is formed at the front end of the positioning seat.

A rod body rotating part 73 which is rotationally connected with the shell is formed at the lower end of the rod body; the lower end of the rotating part of the rod body is arc-shaped.

The upper end of the positioning seat is arc-shaped, and the upper end of the driving body is arc-shaped.

When the driving body is abutted against the inner side wall of the sliding groove of the driving body, a sealing surface which is in sealing sliding connection with the lower end surface of the rotating part of the rod body is formed on the upper end surface of the driving body and the upper end surface of the positioning seat.

The rod body rotating part is internally provided with a through hole which penetrates through the rod body rotating part along the axial direction of the rod body.

A sliding rod slot 611 capable of being inserted into the sliding rod is formed in the center of the positioning seat; when the rod body is vertically arranged, the sliding rod is opposite to the sliding rod slot.

A shell through groove 12 for the rod body rotating part to enter the shell is formed in the center of the upper end of the shell; rod body rotating seats 11 are respectively formed at the two sides of the upper end of the shell, which are positioned in the shell through groove and along the front and back direction of the shell; a rod body rotating hole 111 arranged along the left and right direction of the shell is formed on the rod body rotating seat; the side walls of the rod body rotating part in the left and right directions of the shell are respectively and fixedly connected with a rod body rotating shaft 731 which is rotatably connected with the rod body rotating hole.

The side wall of the sliding rod is fixedly connected with a piston body 91 which is in sealing sliding connection with the inner wall of the rod body.

A water storage tank 72 for storing water is fixedly connected to the lower part of the side wall of the rod body.

The lower end of the bottom plate is uniformly formed with spraying holes 65 which are communicated with the water storage tank and can soak the dust removal paper at the lower end of the bottom plate.

A first valve plate which is communicated in a one-way from the rod body to the water storage tank is arranged between the water storage tank and the rod body; and a second valve plate which is unidirectionally conducted from the upper part of the rod body to the lower part of the rod body is arranged on the piston body.

As shown in fig. 16, when the rod body is vertically arranged, the lower end opening of the rod body is sealed relative to the positioning seat, a closed environment is formed between the piston body and the positioning seat, the sliding rod moves downwards, the air pressure in the rod body is increased, the first valve plate is switched on, air enters the water storage tank, then water in the water storage tank is sprayed onto the dust removal paper through the spraying hole, the sliding rod moves upwards, the second valve plate is switched on, and the external air enters the lower part of the rod body.

As shown in fig. 17, when the rod body is inclined, the lower port of the rod body is staggered with the positioning seat, the rod body is communicated with the outside, the sliding rod moves downwards to drive the driving body to move, and the water storage tank does not discharge water.

The upper end of the water storage tank is detachably and hermetically connected with a water tank cover 74.

A water inlet pipe 68 communicated with each spraying hole is formed at the upper end of the bottom plate; the water inlet pipe is communicated with the water storage tank through a hose; the water inlet pipe is provided with a third valve plate which is communicated with the spraying hole in a one-way from the water storage tank, so that water in the water storage tank can not flow towards the spraying hole after the water tank cover is opened.

A cutting part 102 for cutting off the dust removing paper wound on the paper winding frame is connected to the rear part of the upper end of the shell in a sliding manner along the left and right directions of the shell.

A rear groove 19 for taking out the dust removal paper cut by the cutting part is formed at the rear end of the housing.

The rear end of the housing is rotatably connected with a rear cover 101 capable of covering the rear groove.

The rear part of the upper end of the shell is provided with a cutting groove 13 for the sliding of the cutting part.

The cutting portion includes a slider 1021 slidably coupled above the housing, a blade 1022 fixedly coupled to a lower end of the slider and located inside the housing, and a blade spring 1023 installed between the slider and the housing.

Under the action of no external force, the blade spring drives the sliding head and the arrival sheet to be positioned at the upper limit position, and the blade is positioned right above the paper winding frame at the moment.

The user presses the sliding head to make the sliding head located at the lower limit position, the blade contacts with the rotating belt on the paper winding frame at the moment, then the sliding head is moved to cut off the dedusting paper wound on the periphery of the rotating belt, and the cut dedusting paper is taken out from the rear groove.

The surfaces of the belt and the rotating belt are coated with adhesive layers for attaching the dust removing paper to the surfaces of the belt and the rotating belt, so that the dust removing paper is better attached to the belt and the rotating belt.

In an initial state, unused dedusting paper is located at the lower end of the bottom plate, the driving body is located at the limit position in the sliding groove of the driving body, the front fixing frame and the rear fixing frame clamp the dedusting paper at the moment, and the lower end face of the conveying belt is flush with the lower end face of the bottom plate.

When the dust removal paper is clamped by the front fixing frame and the rear fixing frame, the user pushes the pull rod body to drive the shell to move, and the dust removal paper cannot move.

The user can use the invention to mop the floor, and the dry dust removal paper can effectively clean the dirt of the dust and the hair.

When the floor has stains which are difficult to remove by using dry dust removing paper, a user can wet the dust removing paper so as to clean, and the specific operation is as follows:

the user is with the body of rod vertical placing, forms sealed environment between piston body and the positioning seat this moment, and the user presses the button after that, and the piston body moves down for the water in the storage water tank through the inlet tube, spray that the hole is even sprays on dust removal paper, and then makes dust removal paper moist.

When the user finishes cleaning, when the change of dust removal paper, the user places the body of rod slope, body of rod rotation portion and external intercommunication, the storage water tank can not go out water, and the slide bar is just to the driving body, then user's one hand presses down the button, the slide bar moves to body of rod below, the slide bar promotes the driving body, make the driving body move to casing the place ahead, and then preceding mount, back mount all with the separation of dust removal paper, make dust removal paper can remove, and the conveyer belt moves down, the casing is lifted relatively, conveyer belt lower extreme face is less than bottom plate lower extreme face.

Then the other hand of the user holds the rod body and pushes the shell forwards, the dedusting paper and the conveying belt move relative to the shell under the action of friction force between the dedusting paper and the ground, when the dedusting paper moves to the reversing table, the mopping surface of the dedusting paper is abutted against the blank surface, dirt which is not attached to the mopping surface is attached to the blank surface, then the dedusting paper enters the shell through the reversing table, and when the dedusting paper moves to the reversing wall, the dedusting paper is wound on the paper winding frame under the limitation of the reversing wall.

When the user pushes the shell to move for a corresponding distance, new dust removing paper completely moves to the position below the bottom plate, then the user releases the button, the sliding rod moves towards the upper part of the rod body, the driving body moves to the limit position inside the sliding groove of the driving body, and the dust removing device is restored to the initial state so as to be used next time.

Referring to fig. 1, a dust removal paper cassette is located at the front of a housing.

The paper rolling frame is arranged, so that the floor mopping surface of the dust removing paper is abutted against the blank surface, dirt which is not attached to the floor mopping surface can be attached to the blank surface while the floor is cleaned by the dust removing paper, a user does not need to clean the residual dirt, and the utilization rate of the dust removing paper is increased due to the use of the blank surface.

According to the invention, the driving body moves, so that the front fixing frame and the rear fixing frame loosen the dust removing paper, the dust removing paper is convenient to replace, and meanwhile, the conveying belt is driven to move downwards, so that the resistance force applied when the dust removing paper is replaced is reduced.

According to the invention, the rod body is in an inclined state or a vertical state, so that the dust removing paper can be replaced or the water can be sprayed.

According to the invention, the dust removal paper can be replaced or the water is discharged from the water storage tank to wet the dust removal paper by pressing the button.

Claims (8)

1. A disposable mop kit characterized by: comprises a mopping assembly; the mopping assembly comprises a shell, a bottom plate fixedly connected to the lower end of the shell, a dust removal paper box arranged in the front of the shell and provided with dust removal paper, and two conveying belts arranged in the shell and respectively positioned on the left side and the right side of the bottom plate and abutted against the dust removal paper;

the dust removal paper comprises a mopping surface for cleaning the ground and a blank surface opposite to the mopping surface;

the dust removing paper is positioned at the lower end of the bottom plate through the dust removing paper box, and the mopping surface is contacted with the ground;

a paper winding frame which is driven by a conveying belt and used for winding the dust removing paper is arranged at the rear part in the shell; the blank surface of the dedusting paper wound on the paper winding frame faces outwards;

the surface of the paper winding frame, which is contacted with the dust removal paper, is divided into an arc-shaped driving surface and a sharp-angled surface;

a reversing table is formed at the rear end of the bottom plate; the dust removing paper enters the shell through the reversing table and is wound on the paper winding frame;

the position of the sharp corner surface is abutted against the lower end of the reversing table;

when the shell moves forwards, the dust removal paper rubs with the ground to drive the conveying belt and the dust removal paper to move;

a paper fixing component capable of fixing the dust removing paper so that the dust removing paper cannot move is arranged in the shell;

the upper end of the shell is provided with a mopping rod component for driving the paper fixing component to work.

2. A disposable mop kit as recited in claim 1, wherein: the paper fixing assembly comprises a driving body, a front fixing frame and a rear fixing frame, the driving body is connected to the upper end of the bottom plate in a sliding mode along the front and rear directions of the shell and driven by the mopping rod assembly, the front fixing frame is driven by the driving body and can abut against the side wall of the front end of the shell to clamp the dust removing paper in the front of the conveying belt, and the rear fixing frame is driven by the driving body and can abut against the paper winding frame to clamp the dust removing paper in the.

3. A disposable mop kit as recited in claim 2, wherein: the paper fixing assembly further comprises two moving blocks fixedly connected with the driving body respectively; a moving block is close to a conveying belt;

the conveying belt comprises a conveying frame longitudinally connected in the shell in a sliding manner and a belt sleeved on the periphery of the conveying frame;

one end of each conveying frame, which is close to the center of the shell, is respectively formed with a conveying connecting plate;

a first inclined wall which is obliquely arranged is formed at the lower end of each moving block; the upper end of each conveying connecting plate is provided with a second inclined wall which is abutted against one first inclined wall;

when the moving block moves back and forth, the conveying frame moves up and down;

when the conveying frame is located at the upper limit position, the lower end face of the belt is flush with the lower end face of the bottom plate, and the dust removing paper is clamped by the front fixing frame and the rear fixing frame;

when the conveying frame is located at the lower limit position, the lower end face of the belt is located below the lower end face of the bottom plate, and the front fixing frame and the rear fixing frame are separated from the dust removal paper.

4. A disposable mop kit as defined in claim 1 or 2 wherein: conveying belt through holes for the conveying belts to pass through are respectively formed in the positions, right opposite to the conveying belts, of the two sides of the front end of the shell;

the dust removal paper enters the lower end of the bottom plate through the front end face of the shell.

5. A disposable mop kit as recited in claim 2, wherein: the paper rolling frame comprises two paper rolling positioning plates fixedly connected to the inner walls of the left side and the right side of the shell respectively, a rotating belt rotating part arranged between the two paper rolling positioning plates, and a rotating belt which is rotatably sleeved on the periphery of the rotating belt rotating part and is in transmission connection with the conveying belt;

the used dust removing paper is wound on the periphery of the rotating belt;

the upper part of the rotating belt is arc-shaped, and the lower part of the rotating belt is sharp-angled;

a horizontal spring and a vertical spring which are horizontally arranged are arranged between the rotating part of the rotating belt and one roll paper positioning plate;

the horizontal spring enables the rotating belt to be pressed against the conveying belt at any moment, and the horizontal spring and the longitudinal spring enable the sharp-angled moment of the sharp-angled surface of the rotating belt to be pressed against the lower end of the reversing table at any moment;

a reversing bulge is formed at the upper part of one end of the reversing table close to the paper winding frame; one surface of the reversing bulge facing the paper winding frame is an arc-shaped inwards concave reversing wall;

the dust removing paper on the conveying belt is attached to the paper winding frame through the reversing wall.

6. A disposable mop kit as recited in claim 2, wherein: the mopping rod assembly comprises a hollow rod body rotatably connected to the center of the upper end of the shell, a sliding rod axially and slidably connected into the rod body, and a button which is connected to the upper part of the rod body in a sliding mode along the radial direction of the rod body and drives the sliding rod to axially move;

when the rod body is obliquely placed, the sliding rod faces the driving body, and moves towards the shell to drive the driving body to move towards the front of the shell;

and a driving body spring for resetting the driving body is arranged between the bottom plate and the driving body.

7. The disposable mop kit of claim 6, wherein: a positioning seat is formed in the center of the upper end of the bottom plate; a driving body sliding groove with an opening at the upper end and connected with the driving body in a sealing and sliding manner is formed at the front end of the positioning seat;

the lower end of the rod body is formed with a rod body rotating part which is rotatably connected with the shell; the lower end of the rotating part of the rod body is arc-shaped;

the upper end of the positioning seat is arc-shaped, and the upper end of the driving body is arc-shaped;

when the driving body abuts against the inner side wall of the sliding groove of the driving body, a sealing surface which is in sealing sliding connection with the lower end surface of the rotating part of the rod body is formed on the upper end surface of the driving body and the upper end surface of the positioning seat;

the side wall of the sliding rod is fixedly connected with a piston body which is in sealed sliding connection with the inner wall of the rod body;

the lower part of the side wall of the rod body is fixedly connected with a water storage tank for storing water;

the lower end of the bottom plate is uniformly provided with spraying holes which are communicated with the water storage tank and can soak the dust removing paper at the lower end of the bottom plate;

when the rod body is vertically arranged, the lower end opening of the rod body is sealed relative to the positioning seat, the sliding rod moves downwards, and water in the water storage tank is sprayed onto the dust removal paper through the spraying holes;

when the rod body is obliquely arranged, the lower end opening of the rod body is staggered with the positioning seat, the rod body is communicated with the outside, the sliding rod moves downwards to drive the driving body to move, and water cannot flow out of the water storage tank.

8. A disposable mop kit as recited in claim 1, wherein: the rear part of the upper end of the shell is connected with a cutting part which is used for cutting off the dedusting paper wound on the paper winding frame in a sliding mode along the left and right directions of the shell;

and a rear groove for taking out the dust removal paper cut by the cutting part is formed at the rear end of the shell.

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