CN212346448U

CN212346448U - Household cleaning tool kit

Info

Publication number: CN212346448U
Application number: CN202020834140.XU
Authority: CN
Inventors: 曲淑华
Original assignee: Individual
Current assignee: Hangzhou Yunfeng Industrial Design Co Ltd
Priority date: 2020-05-18
Filing date: 2020-05-18
Publication date: 2021-01-15
Anticipated expiration: 2030-05-18

Abstract

The utility model discloses a household cleaning tool kit, which comprises a barrel body and a mop; an extruder is movably arranged in the barrel body, the extruder comprises two symmetrically arranged extrusion parts which are rotationally connected with the barrel body, and an extrusion opening is formed between the two extrusion parts; when the extrusion part moves downwards relative to the barrel body, the width of the extrusion opening is reduced; a side plate positioning step is formed on one side of the extrusion part close to the extrusion opening; the outer end of the side plate can be temporarily positioned on the side plate positioning step, so that the squeezing part can be displaced along with the movement of the mop; when the mop drives the squeezing part to move downwards relative to the barrel body, the squeezing part drives the two side plates to move oppositely, and then the wiping part is squeezed; before the mop moves from top to bottom to realize water squeezing, the upper ends of the two side plates of the mop slide upwards along the squeezing opening, so that the two side plates rotate in opposite directions by a preset angle, the end parts of the side plates slide above the side plate positioning steps, and the mop is simple in structure, small in size and convenient to use.

Description

Household cleaning tool kit

Technical Field

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

Background

Chinese patent document No. CN209252736U discloses a cleaning tool, which comprises a mop, wherein the mop comprises a mop rod, a squeezing device and a collodion head component for cleaning, and the collodion head component can move relative to the squeezing device to perform dewatering; the collodion cotton head component is provided with a driven part, and the driven part is used for the collodion cotton head component to move relative to the extrusion device; the cleaning tool also comprises a water storage barrel, wherein the water storage barrel is provided with a supporting part, and the supporting part is used for being supported by the driving part so that the collodion cotton head component can be supported; the collodion head component of the mop extends into the water storage barrel and is supported by the supporting part, the mop rod is held and pushed to press downwards, the pressed mop rod drives the extrusion device to move relative to the supported collodion head component, and therefore the extrusion device can extrude the collodion head component. The water storage barrel with the supporting part can be matched with the collodion mop with the squeezing device for use, so that the cleaning efficiency is high when the product is matched for use, and the operation is simple and convenient; the product has simple structure, is not easy to damage and is convenient to combine and store for transportation.

In the patent, the mop needs to be provided with the driven part, so that the width of the whole mop is increased, and the mop is inconvenient to clean areas with narrow width.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: aiming at the defects in the prior art, the household cleaning tool kit which is convenient to wring water and has a simple mop structure is provided.

In order to realize the purpose of the utility model, the following technical scheme is adopted to realize: a household cleaning tool kit comprises a barrel body and a mop; the mop comprises a mop rod, a mop plate connected to the lower end of the mop rod and a wiping part arranged at the lower end of the mop plate; the mop plate comprises two side plates which can rotate relatively; when the two side plates rotate to be in the same plane, the mop plate is in a floor mopping state; when the two side plates rotate downwards relatively, the wiping part is squeezed, and the mop plate is in a water squeezing state.

An extruder is movably arranged in the barrel body and comprises two symmetrically arranged extrusion parts which are rotatably connected with the barrel body, and an extrusion opening is formed between the two extrusion parts; when the extrusion part moves downwards relative to the barrel body, the width of the extrusion opening is reduced.

A side plate positioning step is formed on one side of the extrusion part close to the extrusion opening; the outer end of the side plate can be temporarily positioned on the side plate positioning step, so that the squeezing part can be displaced along with the movement of the mop.

When the mop drives the squeezing part to move downwards relative to the barrel body, the squeezing part drives the two side plates to move in opposite directions, and then the wiping part is squeezed.

Before the mop moves from top to bottom to realize water squeezing, the upper ends of the two side plates of the mop slide upwards along the squeezing openings, so that the two side plates rotate oppositely by a preset angle, and the end parts of the side plates slide above the side plate positioning steps.

As an optimization scheme: and a blocking wall for preventing the end part of the side plate from being separated from the side plate positioning step is arranged above the side plate positioning step.

As an optimization scheme: each extrusion part is connected with the barrel body through two parallel rotating connecting parts, and two ends of each rotating connecting part are respectively connected with the barrel body and the extrusion part in a rotating mode.

As an optimization scheme: each extrusion part is connected with the barrel body through a rotating connecting part, and two ends of the rotating connecting part are respectively connected with the barrel body and the extrusion part in a rotating manner; and one end of the extrusion part, which is far away from the end connected with the rotating connecting part, is connected with the barrel body in a sliding manner, so that the included angle between the extrusion part and the horizontal plane is kept unchanged.

As an optimization scheme: an arc-shaped groove is formed in the barrel body; and the extrusion part is formed with an extrusion plate sliding part which is in sliding connection with the arc-shaped groove so as to enable the extrusion part to be always parallel to the vertical plane.

As an optimization scheme: and an elastic element for driving the extrusion part to reset upwards is connected between the extrusion part and the barrel body.

As an optimization scheme: the squeezing part is connected with a floater which can move upwards to reset under the buoyancy action of water in the barrel body.

As an optimization scheme: the mop plate also comprises a connecting part which is respectively and rotatably connected with the two side plates; a side plate positioning groove is formed in one side of each side plate close to the connecting part; a positioning block sliding groove which is arranged along the length direction of the mop and penetrates through the connecting part is formed on the connecting part; the positioning block sliding groove is internally connected with two positioning blocks which can be abutted against the positioning grooves of the side plates; and a positioning spring for driving the positioning block to move towards the outer side of the connecting part is arranged between the two positioning blocks.

Compared with the prior art, the beneficial effects of the utility model are that: when the mop is used, water is added into the barrel body, then the mop is put into the barrel body, and the wiping part is soaked or shaken up and down or pushed and pulled to be cleaned.

When crowded water, remove the mop to extrusion frame below, upwards promote the mop after that, two curb plates will rotate certain angle along rotating connecting portion, continue upwards promote the mop, it offsets with keeping off the wall to offset until the curb plate is protruding, the restriction mop continues the trend of shifting up, promote the mop after that downwards, the curb plate will offset with curb plate location step, and the rotation takes place downwards in the drive extrusion portion, the downward pivoted in-process of extrusion portion, interval between two extrusion portions reduces, the extrusion mouth width reduces promptly, and then make two curb plates further rotate in opposite directions, extrude the portion of cleaning.

After the squeezing is finished, the mop is lifted upwards or moved horizontally, so that the mop is separated from the squeezing part, then the mop is placed on the ground, and the mop is pushed downwards, so that the two side plates are rotated to a floor mopping state.

When the collodion mop moves upwards from the lower part of the squeezing frame, the squeezing part is positioned at the upper limit position, and the rotating connecting parts at the two sides form a horn mouth shape with a narrow upper part and a wide lower part, so that the resistance on the collodion mop when moving upwards can be reduced.

Drawings

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

Fig. 2 is an exploded schematic view of the barrel and the squeezer of the present invention.

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

Fig. 4 is a schematic sectional structure view of the connecting portion of the present invention.

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

Fig. 6 is a schematic sectional view of the barrel and the squeezer according to the present invention.

Fig. 7 is a schematic structural view of the mop of the present invention moving downward.

Fig. 8 is a schematic structural view of embodiment 2 of the present invention.

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

1. A barrel body;

2. an extruder; 20. an extrusion port; 21. a pressing section; 211. a side plate positioning step; 212. a retaining wall; 23. a rotation connecting part;

3. an extrusion frame; 33. an arc-shaped slot;

4. a mop plate; 40. a positioning spring; 41. a side plate; 411. a side plate positioning groove; 412. the side plate is raised; 42. a connecting portion; 421. a mop rod joint; 422. a positioning block chute; 43. positioning blocks; 5. a wiping section; 6. a mop rod.

Detailed Description

Example 1

Referring to fig. 1 to 7, a mop kit according to the present embodiment includes a barrel 1 and a mop; the mop comprises a mop rod 6, a mop plate 4 connected to the lower end of the mop rod, and a wiping part 5 arranged at the lower end of the mop plate; the mop plate comprises two side plates 41 which can rotate relatively; the mop plate also comprises a connecting part 42 which is respectively and rotatably connected with the two side plates; the mop rod is fixedly connected to the upper end of the connecting part; the wiping part is fixedly connected to the lower end of the side plate and is made of collodion of a conventional collodion mop or other similar sponge or cloth capable of dewatering after being squeezed. When the two side plates rotate to be in the same plane, the mop plate is in a floor mopping state; when the two side plates rotate downwards relatively, the wiping part is squeezed, and the mop plate is in a water squeezing state.

An extruder 2 is movably arranged in the barrel body; the squeezer comprises two symmetrically arranged squeezing parts 21 which are rotationally connected with the barrel body, and a squeezing opening 20 is formed between the two squeezing parts; when the extrusion part moves downwards relative to the barrel body, the width of the extrusion opening is reduced.

Each extrusion part is connected with the barrel body through two parallel rotating connecting parts 23, and two ends of each rotating connecting part are respectively connected with the barrel body and the extrusion part in a rotating mode. When the extrusion part is in the initial position, the connection position of rotating connecting portion and staving is in the position of extrusion part below keeping away from the extrusion mouth, and when the downward motion of extrusion part, the effective length of rotating connecting portion on the horizontal direction increases like this for the displacement to extrusion mouth direction when extrusion part displacement downwards, thereby makes the width of extrusion mouth reduces.

The inside of the barrel body is fixedly connected with an extrusion frame 3; one side of the rotary connecting part, which is far away from the extrusion part, is rotatably connected with the extrusion frame.

And an elastic element for driving the extrusion part to reset upwards is connected between the extrusion part and the barrel body or the extrusion frame.

The elastic element is a torsion spring which is arranged between each rotating connecting part and the extrusion frame and drives the rotating connecting part to rotate upwards for resetting, or a tension spring which drives the rotating connecting part to rotate upwards for resetting is arranged between the two rotating connecting parts positioned above and the extrusion frame.

When the barrel is not used, the rotating connecting part rotates to the upper limit position under the action of the torsion spring or the tension spring, the extruding part is also positioned at the upper limit position, and the rotating connecting part inclines towards the center direction of the upper part of the barrel body from bottom to top.

Or the squeezing part is connected with a floater, the floater can move upwards to reset under the buoyancy action of water in the barrel body, when the water is not used and the water is in the barrel body, the floater floats at the upper end of the liquid level in the barrel body, and the squeezing part is located at the upper limit position.

A side plate positioning step 211 is formed on one side of the extrusion part close to the extrusion opening; the outer end of the side plate can be temporarily positioned on the side plate positioning step, so that the squeezing part can be displaced along with the movement of the mop.

Before the mop moves from top to bottom to realize water squeezing, the upper ends of the two side plates of the mop slide upwards along the squeezer, so that the two side plates rotate oppositely by a preset angle, and the end parts of the side plates slide above the side plate positioning steps.

And a blocking wall 212 for preventing the end part of the side plate from being separated from the side plate positioning step is arranged above the side plate positioning step.

And a side plate bulge 412 which can be abutted against the blocking wall is formed on one side of the upper end of the side plate, which is far away from the rotating shaft of the side plate.

A side plate positioning groove 411 is formed in one side of each side plate close to the connecting part; a positioning block sliding groove 422 which is arranged along the length direction of the mop and penetrates through the connecting part is formed on the connecting part; the positioning block sliding groove is internally and slidably connected with two symmetrically arranged positioning blocks 43 which can be abutted against the positioning grooves of the side plates; and a positioning spring 40 for driving the positioning block to move towards the outer side of the connecting part is arranged between the two positioning blocks.

When the mop is in a floor-mopping state, the two side plates are positioned on the same plane, and the positioning block is abutted against the side plate positioning groove, so that the two side plates are kept in a parallel state.

The upper end of the connecting part is formed with a mop rod joint 421 fixedly connected with the mop rod.

When the mop is used, water is added into the barrel body, then the mop is put into the barrel body, and the wiping part is soaked or shaken up and down or pushed and pulled to be cleaned.

Example 2

As shown in fig. 8 and 9, the present embodiment is different from embodiment 1 in that: each extrusion part is connected with the barrel body through a rotating connecting part, and two ends of the rotating connecting part are respectively connected with the barrel body and the extrusion part in a rotating manner; and one end of the extrusion part, which is far away from the end connected with the rotating connecting part, is connected with the barrel body in a sliding manner, so that the included angle between the extrusion part and the horizontal plane is kept unchanged.

One side of the rotary connecting part, which is far away from the extrusion part, is rotatably connected with the extrusion frame.

An arc-shaped groove 33 is formed in the barrel body; the arc-shaped groove is formed on the extrusion frame; and the extrusion part is formed with an extrusion plate sliding part which is in sliding connection with the arc-shaped groove so as to enable the extrusion part to be always parallel to the vertical plane.

When the rotating connecting part drives the extrusion part to rotate, the sliding part of the extrusion plate slides along the arc-shaped groove, and the extrusion part is always kept in a vertical state in the process.

Claims

1. A household cleaning tool kit comprises a barrel body and a mop; the mop comprises a mop rod, a mop plate connected to the lower end of the mop rod and a wiping part arranged at the lower end of the mop plate; the mop plate comprises two side plates which can rotate relatively; when the two side plates rotate to be in the same plane, the mop plate is in a floor mopping state; when the two side plates rotate downwards relatively, the wiping part is squeezed, and the mop plate is in a water squeezing state;

the method is characterized in that:

an extruder is movably arranged in the barrel body and comprises two symmetrically arranged extrusion parts which are rotatably connected with the barrel body, and an extrusion opening is formed between the two extrusion parts; when the extrusion part moves downwards relative to the barrel body, the width of the extrusion opening is reduced;

a side plate positioning step is formed on one side of the extrusion part close to the extrusion opening; the outer end of the side plate can be temporarily positioned on the side plate positioning step, so that the squeezing part can be displaced along with the movement of the mop;

when the mop drives the squeezing part to move downwards relative to the barrel body, the squeezing part drives the two side plates to move oppositely, and then the wiping part is squeezed;

2. A household cleaning tool kit as claimed in claim 1, wherein: and a blocking wall for preventing the end part of the side plate from being separated from the side plate positioning step is arranged above the side plate positioning step.

3. A household cleaning tool kit as claimed in claim 1, wherein: each extrusion part is connected with the barrel body through two parallel rotating connecting parts, and two ends of each rotating connecting part are respectively connected with the barrel body and the extrusion part in a rotating mode.

4. A household cleaning tool kit as claimed in claim 1, wherein: each extrusion part is connected with the barrel body through a rotating connecting part, and two ends of the rotating connecting part are respectively connected with the barrel body and the extrusion part in a rotating manner; and one end of the extrusion part, which is far away from the end connected with the rotating connecting part, is connected with the barrel body in a sliding manner, so that the included angle between the extrusion part and the horizontal plane is kept unchanged.

5. A household cleaning tool kit according to claim 4, wherein: an arc-shaped groove is formed in the barrel body; and the extrusion part is formed with an extrusion plate sliding part which is in sliding connection with the arc-shaped groove so as to enable the extrusion part to be always parallel to the vertical plane.

6. A household cleaning tool kit according to any one of claims 3 to 5, wherein: and an elastic element for driving the extrusion part to reset upwards is connected between the extrusion part and the barrel body.

7. A household cleaning tool kit according to any one of claims 3 to 5, wherein: the squeezing part is connected with a floater which can move upwards to reset under the buoyancy action of water in the barrel body.

8. A household cleaning tool kit as claimed in claim 1, wherein: the mop plate also comprises a connecting part which is respectively and rotatably connected with the two side plates; a side plate positioning groove is formed in one side of each side plate close to the connecting part; a positioning block sliding groove which is arranged along the length direction of the mop and penetrates through the connecting part is formed on the connecting part; the positioning block sliding groove is internally connected with two positioning blocks which can be abutted against the positioning grooves of the side plates; and a positioning spring for driving the positioning block to move towards the outer side of the connecting part is arranged between the two positioning blocks.