CN218870205U - Clean mop external member - Google Patents

Abstract

The utility model discloses a clean mop external member, which comprises a barrel body and a mop; a water purification area is arranged in the barrel body; a water pumping component for delivering water to the wiping object is connected in the barrel body; a cleaning socket through which a mop can pass is arranged on the barrel body; the mop is provided with a driving rail; a driven part which can be driven by a driving rail is movably connected in the barrel body; the driven part is in transmission connection with the water pumping part; when the mop moves up and down in the cleaning socket, the driving track can drive the driven part to move at least in the horizontal direction, and the driven part drives the water pumping part to convey water to the wiping object. When the mop is cleaned and squeezed by a user, the mop can be moved longitudinally in the cleaning socket without horizontally moving the mop, so that water on the mop is prevented from splashing to the outer side of the barrel body.

Description

Clean mop external member

Technical Field

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

Background

Chinese patent document No. CN208864235U discloses a hand-washing-free flat mop bucket and a flat mop. The flat mop bucket is used for cleaning and wiping a flat mop, the flat mop comprises a mop head and a wiper arranged on one surface of the mop head, the flat mop bucket comprises a bucket body and a water smoothing mechanism used for wiping the flat mop wiper, and the bucket body is provided with a water pump, an air pump, a water-air mixing mechanism and a control mechanism; the control mechanism is used for controlling whether the horizontal mop moves up and down relative to the water smoothing mechanism and establishes a link with the work of the water pump and the air pump. The utility model discloses a drag flatly and smooth with reciprocating relatively of water mechanism can drive water pump and air pump and carry water and gas to the wiper and wash after water-gas mixing mechanism mixes, and clean dynamics is more powerful. The utility model discloses simple structure, small, convenient operation are laborsaving, use less amount of water can drag to the tie effectively to wash, avoid the problem that sewage splashes among the cleaning process, have solved the old and weak crowd simultaneously and have been difficult for mentioning the problem of removing the tie and drag the bucket, and customer's experience is felt better.

The water pump is driven to work through the matching of the gear and the rack, the assembly precision requirement is high, and when the mop is just inserted, one tooth at the lowermost end of the mop can not be meshed with the gear in the first time, so that one tooth at the lowermost end of the mop is impacted with the gear, and the mop is easy to damage; the structure has more parts, complex assembly and increased cost.

Chinese patent document CN211324806U discloses a mop bucket, which comprises a bucket body, wherein the bucket body comprises a water storage area and a washing and dewatering area; and a squeezer which can be squeezed and slide relatively with the flat mop head of the flat mop so as to squeeze the wiping matters on the flat mop head is arranged in the washing and dewatering area. A water pumping component with a water inlet end communicated with the water storage area is arranged in the barrel body; and a water spray nozzle communicated with the water outlet end of the water pumping assembly is arranged in the barrel body. The water pumping component can spray water in the water storage area on the wiping object through the water spraying nozzle. When the flat mop head of the flat mop moves upwards and/or downwards relative to the bucket body in the washing and dewatering area, the flat mop drives the water pumping assembly to work. Water without large-particle dirt in the water storage area is continuously sprayed on the wiping object through the water pumping assembly, and the dirt is washed down.

Have two sockets in the above-mentioned patent and correspond washing and wringing, the user easily mixes the position of two sockets when using, influences the use to in-process that moves between two sockets, the water on the mop is easily dropped on the ground.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that: aiming at the defects in the prior art, the cleaning mop kit which can complete cleaning and squeezing in one position and has a simple structure is provided.

In order to realize the purpose of the utility model, the following technical proposal is adopted to realize: a cleaning mop kit comprises a barrel body and a mop; a water purification area is arranged in the barrel body; a water pumping component for delivering water to the wiping object is connected in the barrel body; the barrel body is provided with a cleaning socket for a mop to pass through.

The mop is provided with a driving track.

The barrel body is movably connected with a driven part which can be driven by a driving track.

The driven part is in transmission connection with the water pumping part.

When the mop moves up and down in the cleaning socket, the driving track can drive the driven part to move at least in the horizontal direction, and the driven part drives the water pumping part to convey water to the wiping object.

As a preferable scheme: the driven part is rotatably connected in the barrel body.

When the mop moves up and down in the cleaning socket, the driving rail drives the driven part to rotate, and the contact point of the driven part and the driving rail moves in the horizontal direction while rotating.

Alternatively, the first and second liquid crystal display panels may be,

the driven part is connected in the barrel body in a sliding mode, and has a component in the horizontal direction when sliding relative to the barrel body.

As a preferable scheme: the mop comprises a mop plate, a mop rod movably arranged on one side of the mop plate and a wiping material arranged on the other side of the mop plate; the drive rail is arranged on the mop plate or the mop rod.

As a preferable scheme: the driving rail is provided with a first driving wall surface which can abut against or is connected with the driven part so as to drive the driven part to move towards a first direction; a reset piece for driving the driven part to reset is installed in the barrel body.

Alternatively, the first and second electrodes may be,

the driving track comprises a first driving wall surface and a second driving wall surface which can be abutted against or connected with the driven part; when the mop moves up and down in the cleaning socket, the driven part moves towards a first direction under the action of the first driving wall surface, and the driven part moves towards a second direction under the action of the second driving wall surface, wherein the second direction is opposite to the first direction.

As a preferable scheme: the first driving wall surface and/or the second driving wall surface are flat wall surfaces or arc wall surfaces; when the mop is inserted into the cleaning through hole, the projection length of the flat wall surface or the arc wall surface along the vertical direction is more than 0.

As a preferable scheme: the arc-shaped wall surface is wavy.

As a preferable scheme: and a control part for controlling whether the water pumping part is in a working state is arranged in the barrel body.

When the control member is in the first position, the mop moves up and down within the cleaning receptacle and the water drawing member delivers water to the wipe.

When the control part is in the second position, the mop moves up and down in the cleaning socket, and the water pumping part does not work.

As a preferable scheme: the water pumping component is connected with a driving rod, and the driven part is in transmission connection with the driving rod.

The control part is provided with a one-way tooth part, and when the control part is located at the first position, the one-way tooth part is not in contact with the clamping jaw.

When the control part is located at the second position, the one-way tooth part and the driving rod are in a matched state, after the driving rod moves to the limit position, the one-way tooth part is clamped with the clamping jaw, and the driven part does not drive the driving rod to work any more.

Or the positions of the one-way tooth part and the claws are exchanged.

As a preferable scheme: the water pumping component is a positive displacement pump.

As a preferable scheme: and a wiper plate for extruding the wiping materials is arranged in the barrel body.

Compared with the prior art, the beneficial effects of the utility model are that: when a user cleans and squeezes the mop, the user only needs to move longitudinally in the cleaning socket without horizontally moving the mop, so that water on the mop is prevented from splashing to the outer side of the barrel body.

This scheme simple structure, the part is few, easily processing assembly.

Drawings

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

Fig. 2 is an exploded view of the present invention.

Fig. 3 is a schematic structural view of the driven part of the present invention.

Fig. 4 is a schematic structural view of the barrel cover of the present invention.

Fig. 5 is a schematic sectional view of the present invention.

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

Fig. 7 is an exploded view of the pumping unit of the present invention.

Fig. 8 is a schematic structural diagram of the control unit of the present invention.

Fig. 9 is a schematic structural view of a mop according to embodiment 2 of the present invention.

Fig. 10 is a schematic structural view of a mop according to embodiment 3 of the present invention.

Fig. 11 is a schematic cross-sectional view of a mop according to embodiment 4 of the present invention.

FIG. 12 is a view of the practice of the present invention example 5A mop is schematically shown.

1. A mop; 11. a mop plate; 12. a mop rod; 13. a drive rail; 131. a first driving wall surface; 132. a second driving wall surface; 14. a wipe; 2. a barrel body; 3. an inner barrel; 31. a mop positioning plate; 32. a driven portion rotation hole; 33. a limiting block; 34. a water pumping component mounting base; 4. a barrel cover; 41. cleaning the jack; 42. a control member rotation hole; 43. a limiting groove; 44. a water injection port; 5. a wiper blade; 6. a control part; 61. a one-way tooth portion; 62. a limiting head; 63. controlling the positioning ring; 7. a driven part; 71. a mop resisting plate; 711. a mop roller; 72. a connecting rod; 73. pumping water to a propping plate; 731. a water pumping roller; 8. a water pumping component; 81. a piston cylinder; 811. a water inlet check valve; 812. a water outlet one-way valve; 82. a spring; 83. a piston body; 831. a drive rod; 832. a drive connection plate; 833. a claw is provided.

Detailed description of the preferred embodiments

Referring to fig. 1 to 8, the cleaning mop kit of this embodiment includes a barrel 2, a mop 1; a water purification area is arranged in the barrel body; a water pumping part 8 for delivering water to the wiping materials 14 is connected in the barrel body; the barrel body is provided with a cleaning socket 41 for a mop to pass through.

An inner barrel 3 is fixedly connected in the barrel body; the water purification area is arranged inside the inner barrel; a water pumping part mounting seat 34 for mounting the water pumping part is formed at the bottom in the inner barrel.

The upper end of the barrel body is fixedly connected with a barrel cover 4; the cleaning socket is formed on the barrel cover.

The mop is provided with a driving rail 13, and a driven part 7 which can be driven by the driving rail is movably connected in the barrel body.

The driven part is in transmission connection with the water pumping part.

When the mop moves up and down in the cleaning socket, the driving rail can drive the driven part to move at least in the horizontal direction, and the driven part drives the water pumping part to convey water onto the wiping object 14.

When the mop is cleaned and squeezed by a user, the mop can be moved longitudinally in the cleaning socket without horizontally moving the mop, so that water on the mop is prevented from splashing to the outer side of the barrel body.

The driven part is rotatably connected in the barrel body; a driven part rotating hole 32 which is rotationally connected with the driven part is formed on the inner barrel; the driven part has two, is located the left and right sides of clean socket respectively, and the axis of rotation sets up along the fore-and-aft direction.

When the mop moves up and down in the cleaning socket, the driving rail drives the driven part to rotate, and the contact point of the driven part and the driving rail moves in the horizontal direction while rotating.

The mop comprises a mop plate 11, a mop rod 12 movably arranged on one side of the mop plate, and a wiping material 14 arranged on the other side of the mop plate; the drive rail is arranged on the mop plate.

The two driving tracks are respectively formed at the left side and the right side of the mop plate, and each driving track drives one driven part at the corresponding position to move.

The driving track is provided with a first driving wall surface 131 which can be abutted against the driven part so as to drive the driven part to move towards a first direction; a reset piece for driving the driven part to reset is arranged in the barrel body, and the reset piece can be a spring or a torsion spring and the like connected between the barrel body and the driven part; two first drive wall symmetry sets up for two driven parts can the synchronous motion, and the part that draws water receives two driven parts to apply horizontal component and offsets each other, avoids drawing water the part and takes place to rock.

The driven part comprises a connecting rod 72 coaxially and rotatably connected with the driven part rotating hole, a mop abutting plate 71 formed at one end, close to the cleaning socket, of the connecting rod, and a water pumping abutting plate 73 formed at one end, far away from the cleaning socket, of the connecting rod.

The mop abutting plate is rotatably connected with a mop roller 711 which can abut against the first driving wall surface, and the mop roller can reduce the friction force between the driven part and the first driving wall surface.

The first driving wall surface is an arc-shaped wall surface; when the mop is inserted into the cleaning through hole, the projection length L1 of the arc-shaped wall surface along the vertical direction is greater than 0.

The arc-shaped wall surface is wavy.

The arc-shaped wall surface is provided with a plurality of low points close to the middle part of the mop plate and high points far away from the middle part of the mop plate, and the adjacent high points and the low points are connected through an arc.

A control part 6 for controlling whether the water pumping part is in a working state is arranged in the barrel body; a control part rotating hole 42 which is rotationally connected with the control part is formed on the barrel cover; the outer wall of the control part is positioned at the lower end of the rotating hole of the control part, and a control positioning ring 63 for preventing the control part from moving axially is fixedly connected with the outer wall of the control part, so that the control part can only rotate circumferentially and cannot move axially.

When the control member is in the first position, the mop moves up and down within the cleaning receptacle and the water drawing member delivers water to the wipe.

When the control part is at the second position, the mop moves up and down in the cleaning socket, and the water pumping part does not work.

The pumping part is connected with a driving rod 831, and the driven part is in transmission connection with the driving rod.

A limiting groove 43 with a central angle smaller than 360 degrees is formed on the barrel cover and positioned on the periphery of the rotating hole of the control part; and a limiting head 62 which slides in the limiting groove to limit the rotation angle of the control part is formed on the outer wall of the control part.

A one-way tooth part 61 is formed on the control part, and a claw 833 which can be tightly clamped with the one-way tooth part is arranged on the driving rod; when the control component is located at the first position, the limiting head is abutted against one end of the limiting groove, and the one-way tooth part is not contacted with the clamping jaw.

When the control part is located at the second position, the one-way tooth part and the driving rod are in a matched state, after the driving rod moves to the limit position, the one-way tooth part is clamped with the clamping jaw, the limiting head is abutted to the other end of the limiting groove, and the driven part does not drive the driving rod to work any more.

The water pumping component is a positive displacement pump.

The water pumping component comprises a piston cylinder 81 fixedly connected to the bottom in the inner barrel and a piston body 83 hermetically connected in the piston cylinder in a sliding manner; the reset piece is a spring 82 arranged between the bottom in the piston cylinder and the piston body; the driving rod is formed at the upper end of the piston body; a driving connecting plate 832 is formed at the upper end of the driving rod; the water pumping abutting plate is rotatably connected with a water pumping roller 731 abutting against the driving connecting plate, and the water pumping roller can reduce the friction force between the driven part and the water pumping part.

The unidirectional tooth portion is composed of a plurality of longitudinally arranged unidirectional teeth, or the unidirectional tooth portion is composed of one unidirectional tooth.

And a claw 833 capable of sliding in one direction with the one-way tooth part is formed at the upper part of the driving rod.

The lower part of the piston cylinder is provided with a water inlet one-way valve 811 and a water outlet one-way valve 812.

In this embodiment, the displacement pump is a piston pump, and may also be a plunger pump or a diaphragm pump.

A limiting block 33 for limiting the rotation angle of the driven part is formed in the inner barrel; when the mop is not positioned in the cleaning socket, the driven part is propped against the limiting block to wait for being matched with the driving rail.

Two mop positioning plates 31 which are longitudinally arranged are formed on the outer wall of the inner barrel close to the cleaning socket; when the mop is inserted into the cleaning socket, one end of the mop plate close to the mop rod is abutted to the mop positioning plates, and the mop rod is positioned between the two mop positioning plates, so that the mop is prevented from moving in the horizontal direction in the up-and-down movement process.

A wiper blade 5 for squeezing the wiper is arranged in the barrel body.

A diversion trench with an opening facing the wiper is arranged above the wiper plate; the diversion trench is communicated with the water outlet one-way valve through a pipeline.

The barrel cover is formed with a water injection port 44 communicating with the inner barrel.

When in use, clear water is added into the inner barrel.

When the mop is cleaned, the control part is rotated to enable the limiting head to be abutted to one end of the limiting groove, the one-way tooth part is not contacted with the clamping jaw, and the control part cannot block the piston body to move up and down.

When the mop roller moves from one high point to an adjacent low point, the spring drives the piston body to move upwards and further drives the driven part to move reversely, so that the mop roller always abuts against the first driving wall surface, the mop is moved in a reciprocating manner to enable the piston body to move up and down in a reciprocating manner, water in the inner barrel flows onto a wiping object gradually through the water inlet check valve, the water outlet check valve and the flow guide groove, and the wiping object is wetted.

When the mop is squeezed, the control part is rotated until the limiting head abuts against the other end of the limiting groove, and the one-way tooth part is contacted with the clamping jaw at the moment.

When the mop roller moves from one high point to an adjacent low point, the one-way tooth part is matched with the clamping jaw to limit the piston body to move upwards, and then the piston body can not move upwards. The mop continues to move up and down, the water pumping component does not work, and the water scraping plate extrudes water on the wiping object, so that the wiping object is squeezed.

As shown in fig. 9, the present embodiment is modified from embodiment 1 in the following manner:

the driven part is connected in the barrel body in a sliding mode, and has a component in the horizontal direction when sliding relative to the barrel body.

The driven part is horizontally connected in the barrel body in a sliding manner along the left-right direction; a first inclined plane which is obliquely arranged is formed on the driven part; and a second inclined plane which is abutted against the first inclined plane is formed on the driving rod, and when the driven part moves horizontally, the driving rod moves up and down through the matching of the first inclined plane and the second inclined plane.

The first driving wall surface is a flat wall surface; when the mop is inserted into the cleaning through hole, the projection length L1 of the flat wall surface along the vertical direction is larger than 0.

The first driving wall surfaces are formed on the left side and the right side of the mop plate and incline towards the center direction of the mop plate from top to bottom.

When the mop moves downwards, the first driving wall surface is abutted against the driven part, so that the driven part moves towards the outer side of the barrel body, and then the driven part drives the driving rod to move downwards.

When the mop moves upwards, the spring pushes the driving rod to move upwards, so that the driven part moves towards the inner side of the barrel body.

The mop is moved up and down to move the piston up and down in the piston cylinder to deliver water to the wipes.

Compared with the flat wall surface in the embodiment 1, the mop is more stable, and the mop moves half cycle from the driven part when moving downwards to the limit position, so that the user saves more labor.

As shown in fig. 10, the present embodiment is modified from embodiment 1 in the following manner:

the driving rail comprises a first driving wall surface 131 and a second driving wall surface 132 which can abut against or be connected with the driven part; when the mop moves up and down in the cleaning socket, the driven part moves towards a first direction under the action of the first driving wall surface, and the driven part moves towards a second direction under the action of the second driving wall surface, wherein the second direction is opposite to the first direction. It should be noted that the first direction and the second direction are only for a single driving track. That is, in the case where the two driving rails are symmetrically disposed, the first directions of the two first driving wall surfaces on the two driving rails are opposite to each other.

A sliding groove arranged along the front-back direction is formed on the driving connecting plate; the water pumping roller is connected in the sliding groove, so that when the driven part reciprocates, the driven part can drive the driving rod to move up and down together.

The control component is connected in the barrel in a sliding mode and can abut against the water inlet check valve.

When the control part is located at the first position, the control part does not abut against the water inlet one-way valve, and the driven part drives the driving rod to move up and down, so that the water pumping part conveys water to the wiper.

When the control part is located at the second position, the control part is abutted against the water inlet check valve, so that the water inlet check valve is always kept in an open state, the driven part drives the driving rod to move up and down, and the water pumping part cannot convey water to the wiper.

Compared with the above embodiment, the present embodiment does not need to provide the reset member, and the driven portion and the piston body can be reset by the second driving wall surface.

As shown in fig. 11, the present embodiment is modified from embodiment 1 in the following manner:

the first driving wall surface is formed at one end, close to the mop rod, of the mop plate, and the wavy fluctuation of the first driving wall surface is along the front-back direction.

As shown in fig. 12, the present embodiment is modified from embodiment 1 in the following manner:

the driving rail is arranged on the mop rod, and the first driving wall surface 131 is formed on two sides of the mop rod.

Claims (10)

1. A clean mop kit comprises a barrel body and a mop; a water purification area is arranged in the barrel body; a water pumping component for delivering water to the wiping object is connected in the barrel body; a cleaning socket through which a mop can pass is arranged on the barrel body; the method is characterized in that: the mop is provided with a driving rail; a driven part which can be driven by a driving rail is movably connected in the barrel body; the driven part is in transmission connection with the water pumping part; when the mop moves up and down in the cleaning socket, the driving track can drive the driven part to move at least in the horizontal direction, and the driven part drives the water pumping part to convey water to the wiping object.

2. A cleaning mop kit as defined in claim 1, wherein: the driven part is rotatably connected in the barrel body; when the mop moves up and down in the cleaning socket, the driving rail drives the driven part to rotate, and the contact point of the driven part and the driving rail moves in the horizontal direction while rotating; or the driven part is connected in the barrel body in a sliding mode, and the driven part has a component in the horizontal direction when sliding relative to the barrel body.

3. A cleaning mop kit as defined in claim 1, wherein: the mop comprises a mop plate, a mop rod movably arranged on one side of the mop plate and a wiping material arranged on the other side of the mop plate; the drive rail is arranged on the mop plate or the mop rod.

4. A cleaning mop kit as defined in claim 1, 2 or 3, wherein: the driving rail is provided with a first driving wall surface which can abut against or is connected with the driven part so as to drive the driven part to move towards a first direction; a reset piece for driving the driven part to reset is arranged in the barrel body; or the driving track comprises a first driving wall surface and a second driving wall surface which can be abutted against or connected with the driven part; when the mop moves up and down in the cleaning socket, the driven part moves towards a first direction under the action of the first driving wall surface, and the driven part moves towards a second direction under the action of the second driving wall surface, wherein the second direction is opposite to the first direction.

5. A cleaning mop kit as defined in claim 4, wherein: the first driving wall surface and/or the second driving wall surface are flat wall surfaces or arc wall surfaces; when the mop is inserted into the cleaning through hole, the projection length of the flat wall surface or the arc wall surface along the vertical direction is more than 0.

6. A cleaning mop kit as defined in claim 5, wherein: the arc-shaped wall surface is wavy.

7. A cleaning mop kit as defined in claim 1, wherein: a control part for controlling whether the water pumping part is in a working state is arranged in the barrel body; when the control part is at the first position, the mop moves up and down in the cleaning socket, and the water pumping part delivers water to the wiping object; when the control part is at the second position, the mop moves up and down in the cleaning socket, and the water pumping part does not work.

8. A cleaning mop kit as defined in claim 7, wherein: the water pumping component is connected with a driving rod, and the driven part is in transmission connection with the driving rod; the control component is provided with a one-way tooth part, and the driving rod is provided with a clamping jaw which can be clamped with the one-way tooth part; when the control part is at a first position, the one-way tooth part is not contacted with the clamping jaw; when the control component is positioned at the second position, the one-way tooth part and the driving rod are in a matched state, after the driving rod moves to the limit position, the one-way tooth part is clamped with the clamping jaw, and the driven part does not drive the driving rod to work any more; or the positions of the one-way tooth part and the clamping jaw are exchanged.

9. A cleaning mop kit as defined in claim 1, wherein: the water pumping component is a positive displacement pump.

10. A cleaning mop kit as defined in claim 1, wherein: and a wiper plate for extruding the wiping materials is arranged in the barrel body.

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